Zinc and nickel isotopes in seawater from the Indian sector of the Southern Ocean: the impact of natural iron fertilization versus Southern Ocean hydrography and biogeochemistry
The Southern Ocean is the site of 20% of global ocean carbon export, and the origin of water masses that significantly impact the chemistry of the global ocean. Much of the Southern Ocean is a high nutrient low chlorophyll (HNLC) region. Iron is the primary limiting nutrient for phytoplankton growth...
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ftunivtasecite:oai:ecite.utas.edu.au:130959 2023-05-15T18:23:42+02:00 Zinc and nickel isotopes in seawater from the Indian sector of the Southern Ocean: the impact of natural iron fertilization versus Southern Ocean hydrography and biogeochemistry Wang, R-M Archer, C Bowie, AR Vance, D 2018 https://doi.org/10.1016/j.chemgeo.2018.09.010 http://ecite.utas.edu.au/130959 en eng Elsevier Science Bv http://dx.doi.org/10.1016/j.chemgeo.2018.09.010 Wang, R-M and Archer, C and Bowie, AR and Vance, D, Zinc and nickel isotopes in seawater from the Indian sector of the Southern Ocean: the impact of natural iron fertilization versus Southern Ocean hydrography and biogeochemistry, Chemical Geology, 511 pp. 452-464. ISSN 0009-2541 (2018) [Refereed Article] http://ecite.utas.edu.au/130959 Earth Sciences Oceanography Chemical oceanography Refereed Article PeerReviewed 2018 ftunivtasecite https://doi.org/10.1016/j.chemgeo.2018.09.010 2022-09-05T22:16:53Z The Southern Ocean is the site of 20% of global ocean carbon export, and the origin of water masses that significantly impact the chemistry of the global ocean. Much of the Southern Ocean is a high nutrient low chlorophyll (HNLC) region. Iron is the primary limiting nutrient for phytoplankton growth, and may also be an important control on the biogeochemistry of the water masses emanating from the Southern Ocean. Here we investigate the response of Zn and Ni and their isotopes to natural Fe fertilization from Southern Ocean islands, using samples collected during the KEOPS-2 (OctNov 2011) program in the early austral spring near the Kerguelen plateau, Indian Sector of the Southern Ocean. Zinc and Ni concentrations show depth distributions and relationships to major nutrients that are very similar to published data from the Atlantic sector of the Southern Ocean, away from island fertilization. As in the Atlantic sector, and other regions outside the Southern Ocean, there is a slight minimum in δ 66 Zn at about 100150 m depth and a slightly heavier value at the surface. At the KEOPS-2 sites, the light sub-surface Zn isotopes occur at the depth level where measured chl-a has declined to near zero. The heaviest Zn isotope values in either the Atlantic or Indian sectors occur in bottom waters, are associated with samples that show high dissolved Si relative to Zn. These latter represent possible evidence for a heavy input directly to deep water or from sediment, and the Zn-Si-δ 66 Zn systematics are consistent with a source in diatom opal. Nickel concentrations show much less variation than those of Zn, with the most depleted surface value only 1520% lower than those in upwelled deep water in the Southern Ocean. These small variations in Ni concentration are associated with no significant variability in Ni isotopes, as also previously observed in the Atlantic sector. Overall, the key feature of the dataset is the apparent absence of any significant impact of natural Fe fertilization on the distribution of Zn and Ni, ... Article in Journal/Newspaper Southern Ocean eCite UTAS (University of Tasmania) Southern Ocean Austral Kerguelen Indian Chemical Geology 511 452 464 |
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Open Polar |
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eCite UTAS (University of Tasmania) |
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ftunivtasecite |
language |
English |
topic |
Earth Sciences Oceanography Chemical oceanography |
spellingShingle |
Earth Sciences Oceanography Chemical oceanography Wang, R-M Archer, C Bowie, AR Vance, D Zinc and nickel isotopes in seawater from the Indian sector of the Southern Ocean: the impact of natural iron fertilization versus Southern Ocean hydrography and biogeochemistry |
topic_facet |
Earth Sciences Oceanography Chemical oceanography |
description |
The Southern Ocean is the site of 20% of global ocean carbon export, and the origin of water masses that significantly impact the chemistry of the global ocean. Much of the Southern Ocean is a high nutrient low chlorophyll (HNLC) region. Iron is the primary limiting nutrient for phytoplankton growth, and may also be an important control on the biogeochemistry of the water masses emanating from the Southern Ocean. Here we investigate the response of Zn and Ni and their isotopes to natural Fe fertilization from Southern Ocean islands, using samples collected during the KEOPS-2 (OctNov 2011) program in the early austral spring near the Kerguelen plateau, Indian Sector of the Southern Ocean. Zinc and Ni concentrations show depth distributions and relationships to major nutrients that are very similar to published data from the Atlantic sector of the Southern Ocean, away from island fertilization. As in the Atlantic sector, and other regions outside the Southern Ocean, there is a slight minimum in δ 66 Zn at about 100150 m depth and a slightly heavier value at the surface. At the KEOPS-2 sites, the light sub-surface Zn isotopes occur at the depth level where measured chl-a has declined to near zero. The heaviest Zn isotope values in either the Atlantic or Indian sectors occur in bottom waters, are associated with samples that show high dissolved Si relative to Zn. These latter represent possible evidence for a heavy input directly to deep water or from sediment, and the Zn-Si-δ 66 Zn systematics are consistent with a source in diatom opal. Nickel concentrations show much less variation than those of Zn, with the most depleted surface value only 1520% lower than those in upwelled deep water in the Southern Ocean. These small variations in Ni concentration are associated with no significant variability in Ni isotopes, as also previously observed in the Atlantic sector. Overall, the key feature of the dataset is the apparent absence of any significant impact of natural Fe fertilization on the distribution of Zn and Ni, ... |
format |
Article in Journal/Newspaper |
author |
Wang, R-M Archer, C Bowie, AR Vance, D |
author_facet |
Wang, R-M Archer, C Bowie, AR Vance, D |
author_sort |
Wang, R-M |
title |
Zinc and nickel isotopes in seawater from the Indian sector of the Southern Ocean: the impact of natural iron fertilization versus Southern Ocean hydrography and biogeochemistry |
title_short |
Zinc and nickel isotopes in seawater from the Indian sector of the Southern Ocean: the impact of natural iron fertilization versus Southern Ocean hydrography and biogeochemistry |
title_full |
Zinc and nickel isotopes in seawater from the Indian sector of the Southern Ocean: the impact of natural iron fertilization versus Southern Ocean hydrography and biogeochemistry |
title_fullStr |
Zinc and nickel isotopes in seawater from the Indian sector of the Southern Ocean: the impact of natural iron fertilization versus Southern Ocean hydrography and biogeochemistry |
title_full_unstemmed |
Zinc and nickel isotopes in seawater from the Indian sector of the Southern Ocean: the impact of natural iron fertilization versus Southern Ocean hydrography and biogeochemistry |
title_sort |
zinc and nickel isotopes in seawater from the indian sector of the southern ocean: the impact of natural iron fertilization versus southern ocean hydrography and biogeochemistry |
publisher |
Elsevier Science Bv |
publishDate |
2018 |
url |
https://doi.org/10.1016/j.chemgeo.2018.09.010 http://ecite.utas.edu.au/130959 |
geographic |
Southern Ocean Austral Kerguelen Indian |
geographic_facet |
Southern Ocean Austral Kerguelen Indian |
genre |
Southern Ocean |
genre_facet |
Southern Ocean |
op_relation |
http://dx.doi.org/10.1016/j.chemgeo.2018.09.010 Wang, R-M and Archer, C and Bowie, AR and Vance, D, Zinc and nickel isotopes in seawater from the Indian sector of the Southern Ocean: the impact of natural iron fertilization versus Southern Ocean hydrography and biogeochemistry, Chemical Geology, 511 pp. 452-464. ISSN 0009-2541 (2018) [Refereed Article] http://ecite.utas.edu.au/130959 |
op_doi |
https://doi.org/10.1016/j.chemgeo.2018.09.010 |
container_title |
Chemical Geology |
container_volume |
511 |
container_start_page |
452 |
op_container_end_page |
464 |
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1766203770742505472 |