Abstract
Investigations on marine N2 fixation have gained momentum since 1960s with eventual establishments of relevant methodologies to identify species involved and quantify the rates. The evolution of various methodologies to understand N2 fixation and to estimate its rates were underpinned by the constant efforts of pioneers in the ocean biogeochemical research field. Those efforts succeeded in introducing various methodologies that include experimental (15N2 bubble method and acetylene reduction method), geochemical (N* and P* method), mathematical modelling, and remote sensing techniques. However, the construction of an accurate N budget is still under progress due to inseparable issues associated with each method and difficulties in conducting the experiments onboard on a larger scale. Nevertheless, the contributions by each of the methodologies are significant and helped in forming basic ideas about N2 fixation activities on a global scale. It is not only important to recognize the contributions made by the formation of various methodologies by marine research pioneers, but also vital to summarize what we have achieved in the marine N2 fixation research area so far. Hence, this review is an attempt to brief on the various milestones achieved in research on the N2 fixation mechanism, species involved, evolution of methodologies to estimate N2 fixation rates, species identification, budgets, and future concerns.
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Acknowledgements
This research was a part of the project entitled “Construction of Ocean Research Station and their application” and “Im provements of ocean prediction accuracy using numerical modeling and artificial intelligence technology” funded by the Ministry of Oceans and Fisheries, Korea. This research was also partly supported by a grant from the National Institute of Fisheries Science (NIFS) in the Republic of Korea (grant number: R2019062).
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Bhavya, P.S., Min, JO., Kim, MS. et al. A Review on Marine N2 Fixation: Mechanism, Evolution of Methodologies, Rates, and Future Concerns. Ocean Sci. J. 54, 515–528 (2019). https://doi.org/10.1007/s12601-019-0037-3
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DOI: https://doi.org/10.1007/s12601-019-0037-3