Slow-spreading submarine ridges in the South Atlantic as a significant oceanic iron source

Copyright: 2013 Nature Publishing Group. This is an ABSTRACT ONLY. The definitive version is published in Nature Geoscience, vol. 6(9), pp 775–779 Low levels of the micronutrient iron limit primary production and nitrogen fixation in large areas of the global ocean. The location and magnitude of oce...

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Main Authors: Saito, MA, Noble, AE, Tagliabue, A, Goepfert, TJ, Lamborg, CH, Jenkins, WJ
Format: Article in Journal/Newspaper
Language:English
Published: Nature Publishing Group 2013
Subjects:
East Pacific rise
Hydrothermal plume
Oxidation-Kinetics
Dissolved Iron
Seawater
Micronutrient iron
Nitrogen fixation
South Atlantic Ocean
Mid-Atlantic Ridge
Pacific
Online Access:http://hdl.handle.net/10204/7442
http://www.nature.com/ngeo/journal/v6/n9/full/ngeo1893.html
id ftcsir:oai:researchspace.csir.co.za:10204/7442
record_format openpolar
spelling ftcsir:oai:researchspace.csir.co.za:10204/7442 2023-05-15T18:20:59+02:00 Slow-spreading submarine ridges in the South Atlantic as a significant oceanic iron source Saito, MA Noble, AE Tagliabue, A Goepfert, TJ Lamborg, CH Jenkins, WJ 2013-09 application/pdf http://hdl.handle.net/10204/7442 http://www.nature.com/ngeo/journal/v6/n9/full/ngeo1893.html en eng Nature Publishing Group Workflow;12858 Saito, M.A, Noble, A.E, Tagliabue, A, Goepfert, T.J, Lamborg, C.H and Jenkins, W.J. 2013. Slow-spreading submarine ridges in the South Atlantic as a significant oceanic iron source. Nature Geoscience, vol. 6(9), pp 775–779 1752-0894 http://www.nature.com/ngeo/journal/v6/n9/full/ngeo1893.html http://hdl.handle.net/10204/7442 East Pacific rise Hydrothermal plume Oxidation-Kinetics Dissolved Iron Seawater Micronutrient iron Nitrogen fixation South Atlantic Ocean Article 2013 ftcsir 2022-05-19T06:15:43Z Copyright: 2013 Nature Publishing Group. This is an ABSTRACT ONLY. The definitive version is published in Nature Geoscience, vol. 6(9), pp 775–779 Low levels of the micronutrient iron limit primary production and nitrogen fixation in large areas of the global ocean. The location and magnitude of oceanic iron sources remain uncertain, however, owing to a scarcity of data, particularly in the deep ocean. Although deep-sea hydrothermal vents along fast-spreading ridges have been identified as important contributors to the oceanic iron inventory, slow-spreading ridges, which contribute more than half of the submarine ridge-crest environment, are assumed to be less significant and remain relatively unexplored(2). Here, we present measurements of dissolved iron and manganese concentrations along a full-depth section in the South Atlantic Ocean, running from offshore of Brazil to Namibia. We detect a large dissolved iron-and manganese-rich plume over the slow-spreading southern Mid-Atlantic Ridge. Using previously collected measurements of helium-3 concentrations-a tracer of hydrothermal activity-we calculate the ratio of dissolved iron to hydrothermal helium in the plume waters and find that it is 80-fold higher than that reported for plume waters emanating from faster-spreading ridges in the southeastern Pacific. Only the application of a higher ratio in global ocean model simulations yields iron fluxes from these slow-spreading submarine ridges that are in line with our observations. We suggest that global iron contributions from hydrothermal vents are significantly higher than previously thought, owing to a greater contribution from slow-spreading regions. Article in Journal/Newspaper South Atlantic Ocean Council for Scientific and Industrial Research (South Africa): CSIR Research Space Mid-Atlantic Ridge Pacific
institution Open Polar
collection Council for Scientific and Industrial Research (South Africa): CSIR Research Space
op_collection_id ftcsir
language English
topic East Pacific rise
Hydrothermal plume
Oxidation-Kinetics
Dissolved Iron
Seawater
Micronutrient iron
Nitrogen fixation
South Atlantic Ocean
spellingShingle East Pacific rise
Hydrothermal plume
Oxidation-Kinetics
Dissolved Iron
Seawater
Micronutrient iron
Nitrogen fixation
South Atlantic Ocean
Saito, MA
Noble, AE
Tagliabue, A
Goepfert, TJ
Lamborg, CH
Jenkins, WJ
Slow-spreading submarine ridges in the South Atlantic as a significant oceanic iron source
topic_facet East Pacific rise
Hydrothermal plume
Oxidation-Kinetics
Dissolved Iron
Seawater
Micronutrient iron
Nitrogen fixation
South Atlantic Ocean
description Copyright: 2013 Nature Publishing Group. This is an ABSTRACT ONLY. The definitive version is published in Nature Geoscience, vol. 6(9), pp 775–779 Low levels of the micronutrient iron limit primary production and nitrogen fixation in large areas of the global ocean. The location and magnitude of oceanic iron sources remain uncertain, however, owing to a scarcity of data, particularly in the deep ocean. Although deep-sea hydrothermal vents along fast-spreading ridges have been identified as important contributors to the oceanic iron inventory, slow-spreading ridges, which contribute more than half of the submarine ridge-crest environment, are assumed to be less significant and remain relatively unexplored(2). Here, we present measurements of dissolved iron and manganese concentrations along a full-depth section in the South Atlantic Ocean, running from offshore of Brazil to Namibia. We detect a large dissolved iron-and manganese-rich plume over the slow-spreading southern Mid-Atlantic Ridge. Using previously collected measurements of helium-3 concentrations-a tracer of hydrothermal activity-we calculate the ratio of dissolved iron to hydrothermal helium in the plume waters and find that it is 80-fold higher than that reported for plume waters emanating from faster-spreading ridges in the southeastern Pacific. Only the application of a higher ratio in global ocean model simulations yields iron fluxes from these slow-spreading submarine ridges that are in line with our observations. We suggest that global iron contributions from hydrothermal vents are significantly higher than previously thought, owing to a greater contribution from slow-spreading regions.
format Article in Journal/Newspaper
author Saito, MA
Noble, AE
Tagliabue, A
Goepfert, TJ
Lamborg, CH
Jenkins, WJ
author_facet Saito, MA
Noble, AE
Tagliabue, A
Goepfert, TJ
Lamborg, CH
Jenkins, WJ
author_sort Saito, MA
title Slow-spreading submarine ridges in the South Atlantic as a significant oceanic iron source
title_short Slow-spreading submarine ridges in the South Atlantic as a significant oceanic iron source
title_full Slow-spreading submarine ridges in the South Atlantic as a significant oceanic iron source
title_fullStr Slow-spreading submarine ridges in the South Atlantic as a significant oceanic iron source
title_full_unstemmed Slow-spreading submarine ridges in the South Atlantic as a significant oceanic iron source
title_sort slow-spreading submarine ridges in the south atlantic as a significant oceanic iron source
publisher Nature Publishing Group
publishDate 2013
url http://hdl.handle.net/10204/7442
http://www.nature.com/ngeo/journal/v6/n9/full/ngeo1893.html
geographic Mid-Atlantic Ridge
Pacific
geographic_facet Mid-Atlantic Ridge
Pacific
genre South Atlantic Ocean
genre_facet South Atlantic Ocean
op_relation Workflow;12858
Saito, M.A, Noble, A.E, Tagliabue, A, Goepfert, T.J, Lamborg, C.H and Jenkins, W.J. 2013. Slow-spreading submarine ridges in the South Atlantic as a significant oceanic iron source. Nature Geoscience, vol. 6(9), pp 775–779
1752-0894
http://www.nature.com/ngeo/journal/v6/n9/full/ngeo1893.html
http://hdl.handle.net/10204/7442
_version_ 1766199974018678784

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