Introduction to the project VAHINE: VAriability of vertical and tropHIc transfer of diazotroph derived N in the south wEst Pacific

On the global scale, N2 fixation provides the major external source of reactive nitrogen to the surface ocean, surpassing atmospheric and riverine inputs, and sustains  ∼  50 % of new primary production in oligotrophic environments. The main goal of the VAriability of vertical and tropHIc transfer o...

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Bibliographic Details
Published in:Biogeosciences 2016-05, Vol.13 (9), p.2803-2814
Main Authors: Bonnet, Sophie, Moutin, Thierry, Rodier, Martine, Grisoni, Jean-Michel, Louis, Francis, Folcher, Eric, Bourgeois, Bertrand, Boré, Jean-Michel, Renaud, Armelle
Format: Article
Language:English
Subjects:
Bacteria
Biogeochemistry
Carbon
Chemists
Deployment
Dynamics
Ecosystems
Environmental changes
Experiments
Fluxes
Food chains
Food webs
Gene expression
Heterotrophic bacteria
Hydrology
Lagoons
Marine chemistry
Marine ecology
Mesocosms
Nitrogen
Nitrogenation
Oligotrophic environments
Phosphorus
Phytoplankton
Plankton
Primary production
Standard deviation
Stocks
Temperature (air-sea)
Tropical climate
Variability
Zooplankton
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Summary:On the global scale, N2 fixation provides the major external source of reactive nitrogen to the surface ocean, surpassing atmospheric and riverine inputs, and sustains  ∼  50 % of new primary production in oligotrophic environments. The main goal of the VAriability of vertical and tropHIc transfer of diazotroph derived N in the south wEst Pacific (VAHINE) project was to study the fate of nitrogen newly fixed by diazotrophs (or diazotroph-derived nitrogen) in oceanic food webs, and how it impacts heterotrophic bacteria, phytoplankton and zooplankton dynamics, stocks and fluxes of biogenic elements and particle export. Three large-volume ( ∼  50 m3) mesocosms were deployed in a tropical oligotrophic ecosystem (the New Caledonia lagoon, south-eastern Pacific) and intentionally fertilized with  ∼  0.8 µM of dissolved inorganic phosphorus (DIP) to stimulate diazotrophy and follow subsequent ecosystem changes. VAHINE was a multidisciplinary project involving close collaborations between biogeochemists, molecular ecologist, chemists, marine opticians and modellers. This introductory paper describes in detail the scientific objectives of the project as well as the implementation plan: the mesocosm description and deployment, the selection of the study site (New Caledonian lagoon), and the logistical and sampling strategy. The main hydrological and biogeochemical conditions of the study site before the mesocosm deployment and during the experiment itself are described, and a general overview of the papers published in this special issue is presented.
ISSN:1726-4189
1726-4170
1726-4189
DOI:10.5194/bg-13-2803-2016