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Main Authors: De Deckker, Patrick, Arnold, Lee, van der Kaars, Sander, Bayon, Germain, Stuut, Jan-Berend W, Perner, Kerstin, Lopes dos Santos, Raquel A, Uemura, Ryu, Demuro, Martina
Format: Dataset Open Access
Language:en
Published: PANGAEA 2018
Subjects:
Online Access:https://doi.org/10.1594/PANGAEA.896302
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author De Deckker, Patrick
Arnold, Lee
van der Kaars, Sander
Bayon, Germain
Stuut, Jan-Berend W
Perner, Kerstin
Lopes dos Santos, Raquel A
Uemura, Ryu
Demuro, Martina
author_facet De Deckker, Patrick
Arnold, Lee
van der Kaars, Sander
Bayon, Germain
Stuut, Jan-Berend W
Perner, Kerstin
Lopes dos Santos, Raquel A
Uemura, Ryu
Demuro, Martina
collection Datos científicos de ciencias marinas y ambientales
contents Over the last four decades of palaeoclimate research, significant emphasis has been placed on the Last Glacial Maximum (LGM) spanning 26.5-19 thousand years ago (ka), a period that saw significant (~125 m) sea-level reductions and major ice caps adorning large parts of the Northern Hemisphere. Here, we present evidence for another major glacial period spanning 71-59 ka (Marine Isotope Stage 4: MIS4) from a well-dated marine sequence offshore South Australia. The astronomically-tuned chronology of this deep-sea core is confirmed using single-grain optically stimulated luminescence dating (OSL), providing confidence in our high-resolution age model. Our approach to the study of our MD03-2607 core has been to employ many different proxies. These are: d18O of both planktic and benthic foraminifera for stratigraphic purposes, faunal counts of planktonic foraminifera to reconstruct the position of oceanic fronts and currents, alkenone palaeothermometry, XRF core scanning to determine the presence of aeolian dust, and eNd isotope to identify fluvial discharge over the core site. We compare our proxy findings with other archives for mainland Australia and Tasmania. Our multi-proxy palaeoclimate reconstructions are consistent with other marine, terrestrial and cryosphere archives across the Southern Hemisphere and suggest, for the first time, that MIS 4 was almost as dramatic as the LGM. During MIS4, global sea-level was reduced by ~100 m, glaciers across Australasia were more significant compared to the LGM, and sea-surface temperatures were much reduced. These glacial conditions uniformly peaked around 65ka. Global comparisons show major glacial conditions and vegetation shifts elsewhere during MIS4, but many are poorly dated. The significant environmental changes taking place during this glacial period were paralleled by waves of human dispersal across Eurasia and the earliest evidence of human occupation in northern Australia at 65ka.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_896302
institution PANGAEA
language en
publishDate 2018
publisher PANGAEA
record_format pangaea
spellingShingle Marine Isotope Stage 4 in Australasia: a full glacial culminating 65,000 years ago - global connections and implications for human dispersal
De Deckker, Patrick
Arnold, Lee
van der Kaars, Sander
Bayon, Germain
Stuut, Jan-Berend W
Perner, Kerstin
Lopes dos Santos, Raquel A
Uemura, Ryu
Demuro, Martina
IMAGES; International Marine Global Change Study
Over the last four decades of palaeoclimate research, significant emphasis has been placed on the Last Glacial Maximum (LGM) spanning 26.5-19 thousand years ago (ka), a period that saw significant (~125 m) sea-level reductions and major ice caps adorning large parts of the Northern Hemisphere. Here, we present evidence for another major glacial period spanning 71-59 ka (Marine Isotope Stage 4: MIS4) from a well-dated marine sequence offshore South Australia. The astronomically-tuned chronology of this deep-sea core is confirmed using single-grain optically stimulated luminescence dating (OSL), providing confidence in our high-resolution age model. Our approach to the study of our MD03-2607 core has been to employ many different proxies. These are: d18O of both planktic and benthic foraminifera for stratigraphic purposes, faunal counts of planktonic foraminifera to reconstruct the position of oceanic fronts and currents, alkenone palaeothermometry, XRF core scanning to determine the presence of aeolian dust, and eNd isotope to identify fluvial discharge over the core site. We compare our proxy findings with other archives for mainland Australia and Tasmania. Our multi-proxy palaeoclimate reconstructions are consistent with other marine, terrestrial and cryosphere archives across the Southern Hemisphere and suggest, for the first time, that MIS 4 was almost as dramatic as the LGM. During MIS4, global sea-level was reduced by ~100 m, glaciers across Australasia were more significant compared to the LGM, and sea-surface temperatures were much reduced. These glacial conditions uniformly peaked around 65ka. Global comparisons show major glacial conditions and vegetation shifts elsewhere during MIS4, but many are poorly dated. The significant environmental changes taking place during this glacial period were paralleled by waves of human dispersal across Eurasia and the earliest evidence of human occupation in northern Australia at 65ka.
title Marine Isotope Stage 4 in Australasia: a full glacial culminating 65,000 years ago - global connections and implications for human dispersal
topic IMAGES; International Marine Global Change Study
url https://doi.org/10.1594/PANGAEA.896302