Nitrogen Isotopes in the Global Ocean.

Somes, Christopher J. (2013) Nitrogen Isotopes in the Global Ocean. (Doctoral thesis/PhD), Christian-Albrechts-Universität Kiel, Kiel, Germany, 141 pp.

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Abstract

Nitrogen is an essential nutrient for life. Its low abundance throughout much of the sunlit surface ocean limits the growth of primary producers that form the base of ocean ecosystems. Phytoplankton also consume surface ocean CO2 during growth, preventing this greenhouse gas from outgassing to the atmosphere where it will influence climate. Since the source and sink processes that control the balance of the bio-available nitrogen inventory, N2 fixation and denitrification/anammox (N-loss), respectively, are sensitive to climate, they may have an important feedback on atmospheric CO2 during climate change. N2 fixation and N-loss processes leave a distinguishable imprint on the ratio of stable nitrogen isotopes, δ15N, making it a useful tracer to constrain their patterns and rates. This dissertation incorporates δ15N into an Earth System Climate Model to better understand and quantify important N-cycling processes in the ocean. The two stable nitrogen isotopes, 14N and 15N, are included as prognostic tracers into the ocean biogeochemistry component of an Earth System Climate Model. A global database of δ15NO3− observations is compiled from previous studies and compared to the model results. The model is able to qualitatively and quantitatively reproduce many of the observed patterns such as high subsurface values in water column denitrification zones, low values in the North Atlantic attributed to N2 fixation, and the meridional and vertical gradients in the Southern Ocean caused by phytoplankton NO3− assimilation. Experiments show the most important isotope effects that drive the global distribution of δ15N are phytoplankton NO3− assimilation, N2 fixation, and denitrification/anammox. Nitrogen isotopes trends across the Pacific Ocean support that aeolian iron deposition is an important factor regulating the distribution of N2 fixation. N2-fixers have high structural iron requirements in their N2-fixing enzyme, which could restrict their growth since iron is a limiting micronutrient. Model experiments with and without Fe limitation of N2 fixation are compared to meridional δ15NO3− observations in the central and western Pacific Ocean. Only the model with Fe limitation of N2 fixation could reproduce the observed trends. This suggests that atmospheric iron deposition is important for relieving iron limitation of N2-fixers. Water column δ15NO3− and seafloor δ15N observations are used to constrain the rates of N2 fixation, water column N-loss, and benthic N-loss in the ocean. Experiments investigating uncertainties associated with the isotope effects of N-loss in the water column and sediments led to estimates for N-loss that varied by a factor of 3. Two sensitive processes affecting the large range of these estimates in the model are NO3− utilization in suboxic zones and the net fractionation factor associated with benthic N-loss. Sensitivity experiments that best reproduce observations in the suboxic zone and seafloor sediments estimate rates of N2 fixation, water column N-loss, and benthic N-loss are in the range 220–370, 70–90, and 150–280 Tg N yr-1, respectively, assuming a balanced bio-available nitrogen budget in the pre-industrial ocean. This model result suggests rates of N2 fixation have been previously underestimated and the residence time of bio-available nitrogen in the ocean is between 1,500 and 3,000 years.

Document Type: Thesis (Doctoral thesis/PhD)
Thesis Advisors: Oschlies, Andreas and Schneider, Ralph
Keywords: nitrogen; isotope; ocean model
Research affiliation: OceanRep > GEOMAR > FB2 Marine Biogeochemistry > FB2-BM Biogeochemical Modeling
Kiel University
OceanRep > SFB 754 > B1
OceanRep > SFB 754
Open Access Journal?: Yes
Projects: SFB754
Date Deposited: 08 Nov 2013 09:16
Last Modified: 11 May 2017 12:09
URI: http://oceanrep.geomar.de/id/eprint/22377

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