Antiphased dust deposition and productivity in the Antarctic Zone over 1.5 million years

The Southern Ocean paleoceanography provides key insights into how iron fertilization and oceanic productivity developed through Pleistocene ice-ages and their role in influencing the carbon cycle. We report a high-resolution record of dust deposition and ocean productivity for the Antarctic Zone, c...

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Autores principales: Weber, Michael E., Bailey, Ian, Hemming, Sidney R., Martos, Yasmina M., Reilly, Brendan T., Ronge, Thomas A., Brachfeld, Stefanie, Williams, Trevor, Raymo, Maureen, Belt, Simon T., Smik, Lukas, Vogel, Hendrik, Peck, Victoria L., Armbrecht, Linda, Cage, Alix, Cardillo, Fabricio G., Du, Zhiheng, Fauth, Gerson, Fogwill, Christopher J., Garcia, Marga, Garnsworthy, Marlo, Glüder, Anna, Guitard, Michelle, Gutjahr, Marcus, Hernández-Almeida, Iván, Hoem, Frida S., Hwang, Ji-Hwan, Iizuka, Mutsumi, Kato, Yuji, Kenlee, Bridget, OConnell, Suzanne, Pérez, Lara F., Seki, Osamu, Stevens, Lee, Tauxe, Lisa, Tripathi, Shubham, Warnock, Jonathan, Zheng, Xufeng
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9018689/
https://www.ncbi.nlm.nih.gov/pubmed/35440628
http://dx.doi.org/10.1038/s41467-022-29642-5
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author Weber, Michael E.
Bailey, Ian
Hemming, Sidney R.
Martos, Yasmina M.
Reilly, Brendan T.
Ronge, Thomas A.
Brachfeld, Stefanie
Williams, Trevor
Raymo, Maureen
Belt, Simon T.
Smik, Lukas
Vogel, Hendrik
Peck, Victoria L.
Armbrecht, Linda
Cage, Alix
Cardillo, Fabricio G.
Du, Zhiheng
Fauth, Gerson
Fogwill, Christopher J.
Garcia, Marga
Garnsworthy, Marlo
Glüder, Anna
Guitard, Michelle
Gutjahr, Marcus
Hernández-Almeida, Iván
Hoem, Frida S.
Hwang, Ji-Hwan
Iizuka, Mutsumi
Kato, Yuji
Kenlee, Bridget
OConnell, Suzanne
Pérez, Lara F.
Seki, Osamu
Stevens, Lee
Tauxe, Lisa
Tripathi, Shubham
Warnock, Jonathan
Zheng, Xufeng
author_facet Weber, Michael E.
Bailey, Ian
Hemming, Sidney R.
Martos, Yasmina M.
Reilly, Brendan T.
Ronge, Thomas A.
Brachfeld, Stefanie
Williams, Trevor
Raymo, Maureen
Belt, Simon T.
Smik, Lukas
Vogel, Hendrik
Peck, Victoria L.
Armbrecht, Linda
Cage, Alix
Cardillo, Fabricio G.
Du, Zhiheng
Fauth, Gerson
Fogwill, Christopher J.
Garcia, Marga
Garnsworthy, Marlo
Glüder, Anna
Guitard, Michelle
Gutjahr, Marcus
Hernández-Almeida, Iván
Hoem, Frida S.
Hwang, Ji-Hwan
Iizuka, Mutsumi
Kato, Yuji
Kenlee, Bridget
OConnell, Suzanne
Pérez, Lara F.
Seki, Osamu
Stevens, Lee
Tauxe, Lisa
Tripathi, Shubham
Warnock, Jonathan
Zheng, Xufeng
author_sort Weber, Michael E.
collection PubMed
description The Southern Ocean paleoceanography provides key insights into how iron fertilization and oceanic productivity developed through Pleistocene ice-ages and their role in influencing the carbon cycle. We report a high-resolution record of dust deposition and ocean productivity for the Antarctic Zone, close to the main dust source, Patagonia. Our deep-ocean records cover the last 1.5 Ma, thus doubling that from Antarctic ice-cores. We find a 5 to 15-fold increase in dust deposition during glacials and a 2 to 5-fold increase in biogenic silica deposition, reflecting higher ocean productivity during interglacials. This antiphasing persisted throughout the last 25 glacial cycles. Dust deposition became more pronounced across the Mid-Pleistocene Transition (MPT) in the Southern Hemisphere, with an abrupt shift suggesting more severe glaciations since ~0.9 Ma. Productivity was intermediate pre-MPT, lowest during the MPT and highest since 0.4 Ma. Generally, glacials experienced extended sea-ice cover, reduced bottom-water export and Weddell Gyre dynamics, which helped lower atmospheric CO(2) levels.
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spelling pubmed-90186892022-04-28 Antiphased dust deposition and productivity in the Antarctic Zone over 1.5 million years Weber, Michael E. Bailey, Ian Hemming, Sidney R. Martos, Yasmina M. Reilly, Brendan T. Ronge, Thomas A. Brachfeld, Stefanie Williams, Trevor Raymo, Maureen Belt, Simon T. Smik, Lukas Vogel, Hendrik Peck, Victoria L. Armbrecht, Linda Cage, Alix Cardillo, Fabricio G. Du, Zhiheng Fauth, Gerson Fogwill, Christopher J. Garcia, Marga Garnsworthy, Marlo Glüder, Anna Guitard, Michelle Gutjahr, Marcus Hernández-Almeida, Iván Hoem, Frida S. Hwang, Ji-Hwan Iizuka, Mutsumi Kato, Yuji Kenlee, Bridget OConnell, Suzanne Pérez, Lara F. Seki, Osamu Stevens, Lee Tauxe, Lisa Tripathi, Shubham Warnock, Jonathan Zheng, Xufeng Nat Commun Article The Southern Ocean paleoceanography provides key insights into how iron fertilization and oceanic productivity developed through Pleistocene ice-ages and their role in influencing the carbon cycle. We report a high-resolution record of dust deposition and ocean productivity for the Antarctic Zone, close to the main dust source, Patagonia. Our deep-ocean records cover the last 1.5 Ma, thus doubling that from Antarctic ice-cores. We find a 5 to 15-fold increase in dust deposition during glacials and a 2 to 5-fold increase in biogenic silica deposition, reflecting higher ocean productivity during interglacials. This antiphasing persisted throughout the last 25 glacial cycles. Dust deposition became more pronounced across the Mid-Pleistocene Transition (MPT) in the Southern Hemisphere, with an abrupt shift suggesting more severe glaciations since ~0.9 Ma. Productivity was intermediate pre-MPT, lowest during the MPT and highest since 0.4 Ma. Generally, glacials experienced extended sea-ice cover, reduced bottom-water export and Weddell Gyre dynamics, which helped lower atmospheric CO(2) levels. Nature Publishing Group UK 2022-04-19 /pmc/articles/PMC9018689/ /pubmed/35440628 http://dx.doi.org/10.1038/s41467-022-29642-5 Text en © The Author(s) 2022 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Weber, Michael E.
Bailey, Ian
Hemming, Sidney R.
Martos, Yasmina M.
Reilly, Brendan T.
Ronge, Thomas A.
Brachfeld, Stefanie
Williams, Trevor
Raymo, Maureen
Belt, Simon T.
Smik, Lukas
Vogel, Hendrik
Peck, Victoria L.
Armbrecht, Linda
Cage, Alix
Cardillo, Fabricio G.
Du, Zhiheng
Fauth, Gerson
Fogwill, Christopher J.
Garcia, Marga
Garnsworthy, Marlo
Glüder, Anna
Guitard, Michelle
Gutjahr, Marcus
Hernández-Almeida, Iván
Hoem, Frida S.
Hwang, Ji-Hwan
Iizuka, Mutsumi
Kato, Yuji
Kenlee, Bridget
OConnell, Suzanne
Pérez, Lara F.
Seki, Osamu
Stevens, Lee
Tauxe, Lisa
Tripathi, Shubham
Warnock, Jonathan
Zheng, Xufeng
Antiphased dust deposition and productivity in the Antarctic Zone over 1.5 million years
title Antiphased dust deposition and productivity in the Antarctic Zone over 1.5 million years
title_full Antiphased dust deposition and productivity in the Antarctic Zone over 1.5 million years
title_fullStr Antiphased dust deposition and productivity in the Antarctic Zone over 1.5 million years
title_full_unstemmed Antiphased dust deposition and productivity in the Antarctic Zone over 1.5 million years
title_short Antiphased dust deposition and productivity in the Antarctic Zone over 1.5 million years
title_sort antiphased dust deposition and productivity in the antarctic zone over 1.5 million years
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9018689/
https://www.ncbi.nlm.nih.gov/pubmed/35440628
http://dx.doi.org/10.1038/s41467-022-29642-5
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