Mid-Holocene intensification of Southern Hemisphere westerly winds and implications for regional climate dynamics
Mid-Holocene intensification of Southern Hemisphere westerly winds and implications for regional climate dynamics
The Southern Hemisphere westerly winds (SWW), a belt of strong zonal winds in the mid-latitudes, play a key role in Southern Hemisphere climate variability. Recent intensification and southwards migration of the SWW is projected to continue due to anthropogenic climate change and despite a recovering Antarctic ozone hole, impacting regional hydroclimate, ocean circulation and carbon cycling. Despite the importance of the SWW, our understanding of their behaviour on centennial to millennial timescales is limited by the inherently short observational record and limited palaeo-archive agreement on the wind belt's Holocene dynamics. Here we utilise dust flux, Itrax core scanning, rare earth element composition and HYSPLIT particle modelling to present a 8700-year (10,500–1700 cal yr BP) reconstruction of local SWW intensity from a Falkland Islands (Islas Malvinas) peat sediment core which, along with other reconstructions, we interpret in a regional South Atlantic and hemispheric context. We find increased dust deposition and variability from ca. 5700 cal yr BP, signalling an intensification and possible southwards shift of the SWW, though Patagonia likely remains the primary distal dust source throughout our record. Additionally, we identify asymmetric behaviour in the SWW belt from 3000 to 1700 cal yr BP over southern South America and the southwest Atlantic. In alignment with these findings, we propose a possible eastwards projection of the Amundsen Sea Low (ASL) into the South Atlantic during this period. Two volcanic eruptions, likely from Mt Burney (ca. 9700 cal yr BP) and Mt Hudson (ca. 4100 cal yr BP), are captured as cryptotephra deposits in the record. Our precisely dated, high-resolution multiproxy record of South Atlantic wind-blown transport provides an important new dataset that accurately constrains SWW Holocene variability over the Falkland Islands.
Amundsen Sea Low, cryptotephra, dust, Falkland Islands, HYSPLIT, Itrax, peat, radiocarbon dating, rare earth elements, Southern Hemisphere westerly winds
Tamhane, Jamie
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Thomas, Zoë A.
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Cadd, Haidee
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Harris, Matthew R.P.
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Turney, Chris
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Marjo, Christopher E.
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Wang, Huixin
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Akter, Rabeya
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Panaretos, Panayiotis
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Halim, Amalia
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Gadd, Patricia S.
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Carter, Stefanie
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Brickle, Paul
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1 April 2023
Tamhane, Jamie
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Thomas, Zoë A.
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Cadd, Haidee
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Harris, Matthew R.P.
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Turney, Chris
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Marjo, Christopher E.
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Wang, Huixin
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Akter, Rabeya
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Panaretos, Panayiotis
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Halim, Amalia
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Gadd, Patricia S.
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Carter, Stefanie
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Brickle, Paul
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Tamhane, Jamie, Thomas, Zoë A., Cadd, Haidee, Harris, Matthew R.P., Turney, Chris, Marjo, Christopher E., Wang, Huixin, Akter, Rabeya, Panaretos, Panayiotis, Halim, Amalia, Gadd, Patricia S., Carter, Stefanie and Brickle, Paul
(2023)
Mid-Holocene intensification of Southern Hemisphere westerly winds and implications for regional climate dynamics.
Quaternary Science Reviews, 305, [108007].
(doi:10.1016/j.quascirev.2023.108007).
Abstract
The Southern Hemisphere westerly winds (SWW), a belt of strong zonal winds in the mid-latitudes, play a key role in Southern Hemisphere climate variability. Recent intensification and southwards migration of the SWW is projected to continue due to anthropogenic climate change and despite a recovering Antarctic ozone hole, impacting regional hydroclimate, ocean circulation and carbon cycling. Despite the importance of the SWW, our understanding of their behaviour on centennial to millennial timescales is limited by the inherently short observational record and limited palaeo-archive agreement on the wind belt's Holocene dynamics. Here we utilise dust flux, Itrax core scanning, rare earth element composition and HYSPLIT particle modelling to present a 8700-year (10,500–1700 cal yr BP) reconstruction of local SWW intensity from a Falkland Islands (Islas Malvinas) peat sediment core which, along with other reconstructions, we interpret in a regional South Atlantic and hemispheric context. We find increased dust deposition and variability from ca. 5700 cal yr BP, signalling an intensification and possible southwards shift of the SWW, though Patagonia likely remains the primary distal dust source throughout our record. Additionally, we identify asymmetric behaviour in the SWW belt from 3000 to 1700 cal yr BP over southern South America and the southwest Atlantic. In alignment with these findings, we propose a possible eastwards projection of the Amundsen Sea Low (ASL) into the South Atlantic during this period. Two volcanic eruptions, likely from Mt Burney (ca. 9700 cal yr BP) and Mt Hudson (ca. 4100 cal yr BP), are captured as cryptotephra deposits in the record. Our precisely dated, high-resolution multiproxy record of South Atlantic wind-blown transport provides an important new dataset that accurately constrains SWW Holocene variability over the Falkland Islands.
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Published date: 1 April 2023
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Funding Information:
We acknowledge Dr Bill Hiscock and Juee Vohra of UNSW MWAC for their work with radiocarbon dating. We would also like to acknowledge the families of Weddell Island, specifically Lewis Clifton, Stephen Clifton, Robert Short and Jo Turner, for facilitating and assisting with field work in the Falkland Islands. This work was supported by an ARC DECRA Fellowship (DE200100907) awarded to Dr Z. Thomas.
Keywords:
Amundsen Sea Low, cryptotephra, dust, Falkland Islands, HYSPLIT, Itrax, peat, radiocarbon dating, rare earth elements, Southern Hemisphere westerly winds
Identifiers
Local EPrints ID: 476752
URI: http://eprints.soton.ac.uk/id/eprint/476752
ISSN: 0277-3791
PURE UUID: 2c60cd24-2fe5-47f7-bc76-94452c8fa14c
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Date deposited: 12 May 2023 17:06
Last modified: 18 Mar 2024 04:10
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Contributors
Author:
Jamie Tamhane
Author:
Zoë A. Thomas
Author:
Haidee Cadd
Author:
Matthew R.P. Harris
Author:
Chris Turney
Author:
Christopher E. Marjo
Author:
Huixin Wang
Author:
Rabeya Akter
Author:
Panayiotis Panaretos
Author:
Amalia Halim
Author:
Patricia S. Gadd
Author:
Stefanie Carter
Author:
Paul Brickle
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