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The essential bioactive role of nickel in the oceans: Evidence from nickel isotopes
Lemaitre, N.; Du, J.H.; de Souza, G.F.; Archer, C.; Vance, D. (2022). The essential bioactive role of nickel in the oceans: Evidence from nickel isotopes. Earth Planet. Sci. Lett. 584: 117513. https://dx.doi.org/10.1016/j.epsl.2022.117513
In: Earth and Planetary Science Letters. Elsevier: Amsterdam. ISSN 0012-821X; e-ISSN 1385-013X, meer
Peer reviewed article  

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Trefwoord
    Marien/Kust
Author keywords
    nickel isotopes; phytoplankton requirement; bio-availability; GEOTRACES

Auteurs  Top 
  • Lemaitre, N., meer
  • Du, J.H.
  • de Souza, G.F.
  • Archer, C.
  • Vance, D.

Abstract
    The role of nickel (Ni) in ocean biogeochemical cycles is both under-studied and controversial. Strong correlations between Ni and organic carbon in modern and ancient marine sediments suggest a prominent biogeochemical role over a substantial portion of Earth history. Addition of Ni to culturing and seawater incubation experiments produces strong responses in terms of cell growth, particularly of nitrogen-fixing organisms. But the implied limiting role for phytoplankton growth is inconsistent with observations in the real ocean, specifically that photic zone Ni concentrations never descend to the very low values that characterise other bioactive, and often bio-limiting, metals like iron. These two observations can be reconciled if a large portion of the total dissolved Ni present in open-ocean surface waters is not bio-available on short timescales. Here we present new Ni concentration and stable isotope data from the GEOVIDE transect in the North Atlantic. We interpret these new data in the light of the growing database for Ni stable isotopes in the modern ocean, with implications for the biogeochemical importance of Ni. In the new North Atlantic dataset, the lowest Ni concentrations (1.8-2.6 nmol/L) and highest delta Ni-60 (up to +1.67 parts per thousand) are associated with low nitrate, south of the subarctic front (SAF). By contrast, stations at latitudes north of the SAF, with higher surface nitrate, show very subdued variation in Ni concentrations throughout the entire depth of the water column (3.6 +/- 0.3 nmol/L, mean and 2SD), and no variation in delta Ni-60 beyond the narrow global deep-ocean range (+1.33 +/- 0.13 parts per thousand). These North Atlantic Ni isotope data also show relationships with nitrogen isotope effects, observed in the same samples, that are suggestive of a link between Ni utilisation, isotope fractionation and nitrogen fixation. The global dataset, including the new data presented here, reveals a biogeochemical divide with Ni isotope fractionation only occurring in low latitude surface waters. A simple observationally constrained three-dimensional model of Ni cycling suggests that the creation of this isotopically heavy, Ni-poor, end-member, together with the physical circulation and remineralisation at depth, can explain the global Ni-delta Ni-60 systematics. Taken together, these findings hint at Ni-N co-limitation in the modern ocean. We advocate for more extensive and detailed culturing/incubation studies of this neglected metal in order to elucidate its potentially crucial biogeochemical role.

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