Carbon‐Based Estimate of Nitrogen Fixation‐Derived Net Community Production in N‐Depleted Ocean Gyres

Ko, Young Ho; Lee, Kitack; Takahashi, Taro; Karl, David M.; Kang, Sung‐Ho; Lee, Eunil

doi:10.1029/2017gb005634

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i

Carbon‐Based Estimate of Nitrogen Fixation‐Derived Net Community Production in N‐Depleted Ocean Gyres

2018
By Ko, Young Ho ; Lee, Kitack ; Takahashi, Taro ; ...
Source: Global Biogeochemical Cycles, 32(8), 1241-1252

[PDF-1.18 MB]

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Details:

Journal Title:

Global Biogeochemical Cycles
Personal Author:

Ko, Young Ho ; Lee, Kitack ; Takahashi, Taro ; Karl, David M. ; Kang, Sung‐Ho ; ... More +

Ko, Young Ho ; Lee, Kitack ; Takahashi, Taro ; Karl, David M. ; Kang, Sung‐Ho ; Lee, Eunil Less -
NOAA Program & Office:

OAR (Oceanic and Atmospheric Research)
Description:

Accurate estimation of net community production (NCP) in the ocean is important for determining the future trend for carbon dioxide concentrations in the atmosphere and thus for understanding the global carbon cycle and climate change. Most methods for measuring NCP rely on analysis of dissolved fixed inorganic nitrogen species (N), which are believed to be limiting factors for NCP. However, in the vast areas of the ocean gyres only low levels of N are available for phytoplankton during much of the year. In this study the NCP was estimated by summing the seasonal reduction in the concentration of dissolved inorganic carbon (CT) in the surface mixed layer, corrected for changes associated with salinity variation, net air‐sea CO2 flux, horizontal C advection, non‐Redfield diffusive C and N fluxes (deviations from the C:N ratio of 7), and anthropogenic nitrogen deposition. The mixed layer reduction in CT was calculated from an annual CT cycle, deduced from comprehensive records of surface pCO2 and total alkalinity, using an established thermodynamic model. This method yielded a value of 0.6 ± 0.2 Pg of C, which represents the NCP that occurred during the warming period (approximately 8 months) in the nitrate‐depleted (<0.2 μmol/kg) ocean. Our estimate is broadly consistent with the global N2 fixation rate estimated using the 15N‐based method and suggests that N2 fixation by microorganisms is a major driver for this NCP.
Keywords:

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Atmospheric Science Environmental Chemistry General Environmental Science Global And Planetary Change
Source:

Global Biogeochemical Cycles, 32(8), 1241-1252
DOI:

https://doi.org/10.1029/2017gb005634
ISSN:

0886-6236;1944-9224;
Format:

PDF
Publisher:

American Geophysical Union (AGU)
Document Type:

Journal Article
Funding:

Grant no. NA15OAR4320064
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Other
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Library
Main Document Checksum:

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urn:sha256:899977dbe480a6c595caeb7f98d4174ac4ccf9bce721c6fb1619848c2b41a704
Download URL:

https://repository.library.noaa.gov/view/noaa/59717/noaa_59717_DS1.pdf
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