Centennial to millennial-scale changes in oxygenation and productivity in the Eastern Tropical South Pacific during the last 25,000 years

Oxygen minimum zones (OMZ) have expanded in all tropical oceans during the last 50 years resulting in habitat contraction and considerable changes in marine biogeochemistry. However, for a better understanding of the OMZ dynamics under the current climate change, two questions are relevant: 1) how d...

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Main Authors: Salvatteci, R., Gutierrez, D., /Sifeddine, Abdelfettah, /Ortlieb, Luc, Druffel, E., Boussafir, M., Schneider, R.
Format: Text
Language:English
Published: 2016
Subjects:
Redox sensitive metals
Denitrification
Oxygen minimum zone
Peruvian
upwelling ecosystem
Paleoceanography
Antarc*
Antarctic
Online Access:https://www.documentation.ird.fr/hor/fdi:010066086
id ftird:oai:ird.fr:fdi:010066086
record_format openpolar
spelling ftird:oai:ird.fr:fdi:010066086 2024-09-15T17:46:57+00:00 Centennial to millennial-scale changes in oxygenation and productivity in the Eastern Tropical South Pacific during the last 25,000 years Salvatteci, R. Gutierrez, D. /Sifeddine, Abdelfettah /Ortlieb, Luc Druffel, E. Boussafir, M. Schneider, R. PACIFIQUE SUD PEROU ZONE TROPICALE 2016 https://www.documentation.ird.fr/hor/fdi:010066086 EN eng https://www.documentation.ird.fr/hor/fdi:010066086 oai:ird.fr:fdi:010066086 Salvatteci R., Gutierrez D., Sifeddine Abdelfettah, Ortlieb Luc, Druffel E., Boussafir M., Schneider R. Centennial to millennial-scale changes in oxygenation and productivity in the Eastern Tropical South Pacific during the last 25,000 years. 2016, 131 (A), p. 102-117 Redox sensitive metals Denitrification Oxygen minimum zone Peruvian upwelling ecosystem Paleoceanography text 2016 ftird 2024-08-15T05:57:41Z Oxygen minimum zones (OMZ) have expanded in all tropical oceans during the last 50 years resulting in habitat contraction and considerable changes in marine biogeochemistry. However, for a better understanding of the OMZ dynamics under the current climate change, two questions are relevant: 1) how do the magnitude and temporal changes in oceanic dissolved oxygen of the last few decades compare to the natural variability on longer timescales, and 2) what were the local and remote factors driving OMZ changes in the past. In the present study we use a stacked record covering the last 25 kyr from the Eastern Tropical South Pacific (ETSP) OMZ to reconstruct changes in oxygenation and productivity. We use a suite of proxies including the presence of laminations, redox sensitive metals (U, Mo, Re, Ni and Cu), total organic carbon and delta N-15 measurements. Water column denitrification and sediment redox conditions show pronounced centennial to millennial-scale variability during the last 25 kyr, with oxygenation levels as low as at present Global cold periods at different timescales such as the Last Glacial Maximum (23-19 kyr BP) and the Little Ice Age (1500-1850 AD) were associated with a weak OMZ and low export production, while warm intervals such as the deglaciation, part of the Medieval Climate Anomaly and the last 100 years are associated with a stronger OMZ and high export production. Water column denitrification and sediment redox conditions were strongly coupled during the last 25 kyr BP apart from one remarkable exception: during the Antarctic Cold Reversal, sediments were less reducing but the water column denitrification was high resulting in a strong but shallow OMZ. This may have been produced by an enhanced Antarctic Intermediate Water flow. Contrary to our expectations and modeling predictions for the next few decades, we observe a weak ETSP-OMZ during the warm mid-Holocene, which may have been the result of a stronger Walker Circulation that brought oxygen-rich waters to intermediate depths off Peru ... Text Antarc* Antarctic IRD (Institute de recherche pour le développement): Horizon
institution Open Polar
collection IRD (Institute de recherche pour le développement): Horizon
op_collection_id ftird
language English
topic Redox sensitive metals
Denitrification
Oxygen minimum zone
Peruvian
upwelling ecosystem
Paleoceanography
spellingShingle Redox sensitive metals
Denitrification
Oxygen minimum zone
Peruvian
upwelling ecosystem
Paleoceanography
Salvatteci, R.
Gutierrez, D.
/Sifeddine, Abdelfettah
/Ortlieb, Luc
Druffel, E.
Boussafir, M.
Schneider, R.
Centennial to millennial-scale changes in oxygenation and productivity in the Eastern Tropical South Pacific during the last 25,000 years
topic_facet Redox sensitive metals
Denitrification
Oxygen minimum zone
Peruvian
upwelling ecosystem
Paleoceanography
description Oxygen minimum zones (OMZ) have expanded in all tropical oceans during the last 50 years resulting in habitat contraction and considerable changes in marine biogeochemistry. However, for a better understanding of the OMZ dynamics under the current climate change, two questions are relevant: 1) how do the magnitude and temporal changes in oceanic dissolved oxygen of the last few decades compare to the natural variability on longer timescales, and 2) what were the local and remote factors driving OMZ changes in the past. In the present study we use a stacked record covering the last 25 kyr from the Eastern Tropical South Pacific (ETSP) OMZ to reconstruct changes in oxygenation and productivity. We use a suite of proxies including the presence of laminations, redox sensitive metals (U, Mo, Re, Ni and Cu), total organic carbon and delta N-15 measurements. Water column denitrification and sediment redox conditions show pronounced centennial to millennial-scale variability during the last 25 kyr, with oxygenation levels as low as at present Global cold periods at different timescales such as the Last Glacial Maximum (23-19 kyr BP) and the Little Ice Age (1500-1850 AD) were associated with a weak OMZ and low export production, while warm intervals such as the deglaciation, part of the Medieval Climate Anomaly and the last 100 years are associated with a stronger OMZ and high export production. Water column denitrification and sediment redox conditions were strongly coupled during the last 25 kyr BP apart from one remarkable exception: during the Antarctic Cold Reversal, sediments were less reducing but the water column denitrification was high resulting in a strong but shallow OMZ. This may have been produced by an enhanced Antarctic Intermediate Water flow. Contrary to our expectations and modeling predictions for the next few decades, we observe a weak ETSP-OMZ during the warm mid-Holocene, which may have been the result of a stronger Walker Circulation that brought oxygen-rich waters to intermediate depths off Peru ...
format Text
author Salvatteci, R.
Gutierrez, D.
/Sifeddine, Abdelfettah
/Ortlieb, Luc
Druffel, E.
Boussafir, M.
Schneider, R.
author_facet Salvatteci, R.
Gutierrez, D.
/Sifeddine, Abdelfettah
/Ortlieb, Luc
Druffel, E.
Boussafir, M.
Schneider, R.
author_sort Salvatteci, R.
title Centennial to millennial-scale changes in oxygenation and productivity in the Eastern Tropical South Pacific during the last 25,000 years
title_short Centennial to millennial-scale changes in oxygenation and productivity in the Eastern Tropical South Pacific during the last 25,000 years
title_full Centennial to millennial-scale changes in oxygenation and productivity in the Eastern Tropical South Pacific during the last 25,000 years
title_fullStr Centennial to millennial-scale changes in oxygenation and productivity in the Eastern Tropical South Pacific during the last 25,000 years
title_full_unstemmed Centennial to millennial-scale changes in oxygenation and productivity in the Eastern Tropical South Pacific during the last 25,000 years
title_sort centennial to millennial-scale changes in oxygenation and productivity in the eastern tropical south pacific during the last 25,000 years
publishDate 2016
url https://www.documentation.ird.fr/hor/fdi:010066086
op_coverage PACIFIQUE SUD
PEROU
ZONE TROPICALE
genre Antarc*
Antarctic
genre_facet Antarc*
Antarctic
op_relation https://www.documentation.ird.fr/hor/fdi:010066086
oai:ird.fr:fdi:010066086
Salvatteci R., Gutierrez D., Sifeddine Abdelfettah, Ortlieb Luc, Druffel E., Boussafir M., Schneider R. Centennial to millennial-scale changes in oxygenation and productivity in the Eastern Tropical South Pacific during the last 25,000 years. 2016, 131 (A), p. 102-117
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