Late Holocene intensification of the westerly winds at the subantarctic Auckland Islands (51° S), New Zealand

Late Holocene intensification of the westerly winds at the subantarctic Auckland Islands (51° S), New Zealand

The Southern Hemisphere westerly winds (SHWWs) play a major role in controlling wind-driven upwelling of Circumpolar Deep Water (CDW) and outgassing of CO<sub>2</sub> in the Southern Ocean, on interannual to glacial–interglacial timescales. Despite their significance in the global ca...

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Main Authors: I. M. Browne, C. M. Moy, C. R. Riesselman, H. L. Neil, L. G. Curtin, A. R. Gorman, G. S. Wilson
Format: Article
Language:English
Published: Copernicus Publications 2017-10-01
Series:Climate of the Past
Online Access:https://www.clim-past.net/13/1301/2017/cp-13-1301-2017.pdf
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spelling doaj-2121a8e058d54cfebe5d9e63f1814d7b2020-11-24T22:05:55ZengCopernicus PublicationsClimate of the Past1814-93241814-93322017-10-01131301132210.5194/cp-13-1301-2017Late Holocene intensification of the westerly winds at the subantarctic Auckland Islands (51° S), New ZealandI. M. Browne0I. M. Browne1C. M. Moy2C. R. Riesselman3C. R. Riesselman4H. L. Neil5L. G. Curtin6L. G. Curtin7A. R. Gorman8G. S. Wilson9G. S. Wilson10G. S. Wilson11Department of Geology, University of Otago, Dunedin 9016, New Zealandcurrent address: College of Marine Science, University of South Florida, St. Petersburg, FL 33701, USADepartment of Geology, University of Otago, Dunedin 9016, New ZealandDepartment of Geology, University of Otago, Dunedin 9016, New ZealandDepartment of Marine Science, University of Otago, Dunedin 9016, New ZealandNational Institute of Water and Atmospheric Research (NIWA), Wellington 6021, New ZealandDepartment of Geology, University of Otago, Dunedin 9016, New Zealandcurrent address: Lamont-Doherty Earth Observatory, Columbia University, Palisades, NY 10964, USADepartment of Geology, University of Otago, Dunedin 9016, New ZealandDepartment of Geology, University of Otago, Dunedin 9016, New ZealandDepartment of Marine Science, University of Otago, Dunedin 9016, New ZealandNew Zealand Antarctic Research Institute (NZARI), Christchurch 8053, New ZealandThe Southern Hemisphere westerly winds (SHWWs) play a major role in controlling wind-driven upwelling of Circumpolar Deep Water (CDW) and outgassing of CO<sub>2</sub> in the Southern Ocean, on interannual to glacial–interglacial timescales. Despite their significance in the global carbon cycle, our understanding of millennial- and centennial-scale changes in the strength and latitudinal position of the westerlies during the Holocene (especially since 5000 yr BP) is limited by a scarcity of palaeoclimate records from comparable latitudes. Here, we reconstruct middle to late Holocene SHWW variability using a fjord sediment core collected from the subantarctic Auckland Islands (51° S, 166° E), located in the modern centre of the westerly wind belt. Changes in drainage basin response to variability in the strength of the SHWW at this latitude are interpreted from downcore variations in magnetic susceptibility (MS) and bulk organic <i>δ</i><sup>13</sup>C and atomic C ∕ N, which monitor influxes of lithogenous and terrestrial vs. marine organic matter, respectively. The fjord water column response to SHWW variability is evaluated using benthic foraminifer <i>δ</i><sup>18</sup>O and <i>δ</i><sup>13</sup>C, both of which are influenced by the isotopic composition of shelf water masses entering the fjord. Using these data, we provide marine and terrestrial-based evidence for increased wind strength from  ∼  1600 to 900 yr BP at subantarctic latitudes that is broadly consistent with previous studies of climate-driven vegetation change at the Auckland Islands. Comparison with a SHWW reconstruction using similar proxies from Fiordland suggests a northward migration of the SHWW over New Zealand during the first half of the last millennium. Comparison with palaeoclimate and palaeoceanographic records from southern South America and West Antarctica indicates a late Holocene strengthening of the SHWW after  ∼  1600 yr BP that appears to be broadly symmetrical across the Pacific Basin. Contemporaneous increases in SHWW at localities on either side of the Pacific in the late Holocene are likely controlled atmospheric teleconnections between the low and high latitudes, and by variability in the Southern Annular Mode and El Niño–Southern Oscillation.https://www.clim-past.net/13/1301/2017/cp-13-1301-2017.pdf
collection DOAJ
language English
format Article
sources DOAJ
author I. M. Browne
I. M. Browne
C. M. Moy
C. R. Riesselman
C. R. Riesselman
H. L. Neil
L. G. Curtin
L. G. Curtin
A. R. Gorman
G. S. Wilson
G. S. Wilson
G. S. Wilson
spellingShingle I. M. Browne
I. M. Browne
C. M. Moy
C. R. Riesselman
C. R. Riesselman
H. L. Neil
L. G. Curtin
L. G. Curtin
A. R. Gorman
G. S. Wilson
G. S. Wilson
G. S. Wilson
Late Holocene intensification of the westerly winds at the subantarctic Auckland Islands (51° S), New Zealand
Climate of the Past
author_facet I. M. Browne
I. M. Browne
C. M. Moy
C. R. Riesselman
C. R. Riesselman
H. L. Neil
L. G. Curtin
L. G. Curtin
A. R. Gorman
G. S. Wilson
G. S. Wilson
G. S. Wilson
author_sort I. M. Browne
title Late Holocene intensification of the westerly winds at the subantarctic Auckland Islands (51° S), New Zealand
title_short Late Holocene intensification of the westerly winds at the subantarctic Auckland Islands (51° S), New Zealand
title_full Late Holocene intensification of the westerly winds at the subantarctic Auckland Islands (51° S), New Zealand
title_fullStr Late Holocene intensification of the westerly winds at the subantarctic Auckland Islands (51° S), New Zealand
title_full_unstemmed Late Holocene intensification of the westerly winds at the subantarctic Auckland Islands (51° S), New Zealand
title_sort late holocene intensification of the westerly winds at the subantarctic auckland islands (51° s), new zealand
publisher Copernicus Publications
series Climate of the Past
issn 1814-9324
1814-9332
publishDate 2017-10-01
description The Southern Hemisphere westerly winds (SHWWs) play a major role in controlling wind-driven upwelling of Circumpolar Deep Water (CDW) and outgassing of CO<sub>2</sub> in the Southern Ocean, on interannual to glacial–interglacial timescales. Despite their significance in the global carbon cycle, our understanding of millennial- and centennial-scale changes in the strength and latitudinal position of the westerlies during the Holocene (especially since 5000 yr BP) is limited by a scarcity of palaeoclimate records from comparable latitudes. Here, we reconstruct middle to late Holocene SHWW variability using a fjord sediment core collected from the subantarctic Auckland Islands (51° S, 166° E), located in the modern centre of the westerly wind belt. Changes in drainage basin response to variability in the strength of the SHWW at this latitude are interpreted from downcore variations in magnetic susceptibility (MS) and bulk organic <i>δ</i><sup>13</sup>C and atomic C ∕ N, which monitor influxes of lithogenous and terrestrial vs. marine organic matter, respectively. The fjord water column response to SHWW variability is evaluated using benthic foraminifer <i>δ</i><sup>18</sup>O and <i>δ</i><sup>13</sup>C, both of which are influenced by the isotopic composition of shelf water masses entering the fjord. Using these data, we provide marine and terrestrial-based evidence for increased wind strength from  ∼  1600 to 900 yr BP at subantarctic latitudes that is broadly consistent with previous studies of climate-driven vegetation change at the Auckland Islands. Comparison with a SHWW reconstruction using similar proxies from Fiordland suggests a northward migration of the SHWW over New Zealand during the first half of the last millennium. Comparison with palaeoclimate and palaeoceanographic records from southern South America and West Antarctica indicates a late Holocene strengthening of the SHWW after  ∼  1600 yr BP that appears to be broadly symmetrical across the Pacific Basin. Contemporaneous increases in SHWW at localities on either side of the Pacific in the late Holocene are likely controlled atmospheric teleconnections between the low and high latitudes, and by variability in the Southern Annular Mode and El Niño–Southern Oscillation.
url https://www.clim-past.net/13/1301/2017/cp-13-1301-2017.pdf
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