Distribution and rates of nitrogen fixation in the western tropical South Pacific Ocean constrained by nitrogen isotope budgets

Constraining the rates and spatial distribution of dinitrogen (N2) fixation fluxes to the ocean informs our understanding of the environmental sensitivities of N2 fixation as well as the timescale over which the fluxes of nitrogen (N) to and from the ocean may respond to each other. Here we quantify...

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Bibliographic Details
Published in:Biogeosciences 2018-05, Vol.15 (9), p.2619-2628
Main Authors: Knapp, Angela N, McCabe, Kelly M, Grosso, Olivier, Leblond, Nathalie, Moutin, Thierry, Bonnet, Sophie
Format: Article
Language:English
Subjects:
Budgeting
Budgets
Distribution
Earth Sciences
Environmental aspects
Exports
Fluxes
Geochemistry
Iron
Nitrogen
Nitrogen fixation
Nitrogen isotopes
Nitrogenation
Oceanography
Oceans
Oxygen
Removal
Sciences of the Universe
Spatial distribution
Stations
Tropical climate
Water column
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Summary:Constraining the rates and spatial distribution of dinitrogen (N2) fixation fluxes to the ocean informs our understanding of the environmental sensitivities of N2 fixation as well as the timescale over which the fluxes of nitrogen (N) to and from the ocean may respond to each other. Here we quantify rates of N2 fixation as well as its contribution to export production along a zonal transect in the western tropical South Pacific (WTSP) Ocean using N isotope (“δ15N”) budgets. Comparing measurements of water column nitrate + nitrite δ15N with the δ15N of sinking particulate N at a western, central, and eastern station, these δ15N budgets indicate high, modest, and low rates of N2 fixation at the respective stations. The results also imply that N2 fixation supports exceptionally high, i.e. ≥ 50 %, of export production at the western and central stations, which are also proximal to the largest iron sources. These geochemically based rates of N2 fixation are equal to or greater than those previously reported in the tropical North Atlantic, indicating that the WTSP Ocean has the capacity to support globally significant rates of N2 fixation, which may compensate for N removal in the oxygen-deficient zones of the eastern tropical Pacific.
ISSN:1726-4189
1726-4170
1726-4189
DOI:10.5194/bg-15-2619-2018