Deep South Atlantic carbonate chemistry and increased interocean deep water exchange during last deglaciation

Carbon release from the deep ocean at glacial terminations is a critical component of past climate change, but the underlying mechanisms remain poorly understood. We present a 28,000-year high-resolution record of carbonate ion concentration, a key parameter of the global carbon cycle, at 5-km water...

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Main Authors:	Yu, Jimin, Anderson, Robert F., Jin, Zhangdong, Menviel, Laurie, Zhang, Fei, Ryerson, Fredrick J., Rohling, Eelco J.
Format:	Article in Journal/Newspaper
Language:	English
Published:	Elsevier 2014
Subjects:	Paleoclimatology Climatic changes Atmosphere Southern Ocean Pacific Antarc* Antarctica North Atlantic Deep Water North Atlantic
Online Access:	https://doi.org/10.7916/D8T43SK4

id	ftcolumbiauniv:oai:academiccommons.columbia.edu:10.7916/D8T43SK4
record_format	openpolar
spelling	ftcolumbiauniv:oai:academiccommons.columbia.edu:10.7916/D8T43SK4 2023-05-15T13:41:09+02:00 Deep South Atlantic carbonate chemistry and increased interocean deep water exchange during last deglaciation Yu, Jimin Anderson, Robert F. Jin, Zhangdong Menviel, Laurie Zhang, Fei Ryerson, Fredrick J. Rohling, Eelco J. 2014 https://doi.org/10.7916/D8T43SK4 English eng Elsevier https://doi.org/10.7916/D8T43SK4 Paleoclimatology Climatic changes Atmosphere Articles 2014 ftcolumbiauniv https://doi.org/10.7916/D8T43SK4 2019-04-04T08:13:22Z Carbon release from the deep ocean at glacial terminations is a critical component of past climate change, but the underlying mechanisms remain poorly understood. We present a 28,000-year high-resolution record of carbonate ion concentration, a key parameter of the global carbon cycle, at 5-km water depth in the South Atlantic. We observe similar carbonate ion concentrations between the Last Glacial Maximum and the late Holocene, despite elevated concentrations in the glacial surface ocean. This strongly supports the importance of respiratory carbon accumulation in a stratified deep ocean for atmospheric CO2 reduction during the last ice age. After ∼9 μmol/kg decline during Heinrich Stadial 1, deep South Atlantic carbonate ion concentration rose by ∼24 μmol/kg from the onset of Bølling to Pre-boreal, likely caused by strengthening North Atlantic Deep Water formation (Bølling) or increased ventilation in the Southern Ocean (Younger Drays) or both (Pre-boreal). The ∼15 μmol/kg decline in deep water carbonate ion since ∼10 ka is consistent with extraction of alkalinity from seawater by deep-sea CaCO3 compensation and coral reef growth on continental shelves during the Holocene. Between 16,600 and 15,000 years ago, deep South Atlantic carbonate ion values converged with those at 3.4-km water depth in the western equatorial Pacific, as did carbon isotope and radiocarbon values. These observations suggest a period of enhanced lateral exchange of carbon between the deep South Atlantic and Pacific Oceans, probably due to an increased transfer of momentum from southern westerlies to the Southern Ocean. By spreading carbon-rich deep Pacific waters around Antarctica for upwelling, invigorated interocean deep water exchange would lead to more efficient CO2 degassing from the Southern Ocean, and thus to an atmospheric CO2 rise, during the early deglaciation. Article in Journal/Newspaper Antarc* Antarctica North Atlantic Deep Water North Atlantic Southern Ocean Columbia University: Academic Commons Southern Ocean Pacific
institution	Open Polar
collection	Columbia University: Academic Commons
op_collection_id	ftcolumbiauniv
language	English
topic	Paleoclimatology Climatic changes Atmosphere
spellingShingle	Paleoclimatology Climatic changes Atmosphere Yu, Jimin Anderson, Robert F. Jin, Zhangdong Menviel, Laurie Zhang, Fei Ryerson, Fredrick J. Rohling, Eelco J. Deep South Atlantic carbonate chemistry and increased interocean deep water exchange during last deglaciation
topic_facet	Paleoclimatology Climatic changes Atmosphere
description	Carbon release from the deep ocean at glacial terminations is a critical component of past climate change, but the underlying mechanisms remain poorly understood. We present a 28,000-year high-resolution record of carbonate ion concentration, a key parameter of the global carbon cycle, at 5-km water depth in the South Atlantic. We observe similar carbonate ion concentrations between the Last Glacial Maximum and the late Holocene, despite elevated concentrations in the glacial surface ocean. This strongly supports the importance of respiratory carbon accumulation in a stratified deep ocean for atmospheric CO2 reduction during the last ice age. After ∼9 μmol/kg decline during Heinrich Stadial 1, deep South Atlantic carbonate ion concentration rose by ∼24 μmol/kg from the onset of Bølling to Pre-boreal, likely caused by strengthening North Atlantic Deep Water formation (Bølling) or increased ventilation in the Southern Ocean (Younger Drays) or both (Pre-boreal). The ∼15 μmol/kg decline in deep water carbonate ion since ∼10 ka is consistent with extraction of alkalinity from seawater by deep-sea CaCO3 compensation and coral reef growth on continental shelves during the Holocene. Between 16,600 and 15,000 years ago, deep South Atlantic carbonate ion values converged with those at 3.4-km water depth in the western equatorial Pacific, as did carbon isotope and radiocarbon values. These observations suggest a period of enhanced lateral exchange of carbon between the deep South Atlantic and Pacific Oceans, probably due to an increased transfer of momentum from southern westerlies to the Southern Ocean. By spreading carbon-rich deep Pacific waters around Antarctica for upwelling, invigorated interocean deep water exchange would lead to more efficient CO2 degassing from the Southern Ocean, and thus to an atmospheric CO2 rise, during the early deglaciation.
format	Article in Journal/Newspaper
author	Yu, Jimin Anderson, Robert F. Jin, Zhangdong Menviel, Laurie Zhang, Fei Ryerson, Fredrick J. Rohling, Eelco J.
author_facet	Yu, Jimin Anderson, Robert F. Jin, Zhangdong Menviel, Laurie Zhang, Fei Ryerson, Fredrick J. Rohling, Eelco J.
author_sort	Yu, Jimin
title	Deep South Atlantic carbonate chemistry and increased interocean deep water exchange during last deglaciation
title_short	Deep South Atlantic carbonate chemistry and increased interocean deep water exchange during last deglaciation
title_full	Deep South Atlantic carbonate chemistry and increased interocean deep water exchange during last deglaciation
title_fullStr	Deep South Atlantic carbonate chemistry and increased interocean deep water exchange during last deglaciation
title_full_unstemmed	Deep South Atlantic carbonate chemistry and increased interocean deep water exchange during last deglaciation
title_sort	deep south atlantic carbonate chemistry and increased interocean deep water exchange during last deglaciation
publisher	Elsevier
publishDate	2014
url	https://doi.org/10.7916/D8T43SK4
geographic	Southern Ocean Pacific
geographic_facet	Southern Ocean Pacific
genre	Antarc* Antarctica North Atlantic Deep Water North Atlantic Southern Ocean
genre_facet	Antarc* Antarctica North Atlantic Deep Water North Atlantic Southern Ocean
op_relation	https://doi.org/10.7916/D8T43SK4
op_doi	https://doi.org/10.7916/D8T43SK4
_version_	1766146111484985344

Deep South Atlantic carbonate chemistry and increased interocean deep water exchange during last deglaciation

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