The dual isotopes of deep nitrate as a constraint on the cycle and budget of oceanic fixed nitrogen
The dual isotopes of deep nitrate as a constraint on the cycle and budget of oceanic fixed nitrogen
We compare the output of an 18-box geochemical model of the ocean with measurements to investigate the controls on both the mean values and variation of nitrate ?15N and ?18O in the ocean interior. The ?18O of nitrate is our focus because it has been explored less in previous work. Denitrification raises the ?15N and ?18O of mean ocean nitrate by equal amounts above their input values for N2 fixation (for ?15N) and nitrification (for ?18O), generating parallel gradients in the ?15N and ?18O of deep ocean nitrate. Partial nitrate assimilation in the photic zone also causes equivalent increases in the ?15N and ?18O of the residual nitrate that can be transported into the interior. However, the regeneration and nitrification of sinking N can be said to decouple the N and O isotopes of deep ocean nitrate, especially when the sinking N is produced in a low latitude region, where nitrate consumption is effectively complete. The ?15N of the regenerated nitrate is equivalent to that originally consumed, whereas the regeneration replaces nitrate previously elevated in ?18O due to denitrification or nitrate assimilation with nitrate having the ?18O of nitrification. This lowers the ?18O of mean ocean nitrate and weakens nitrate ?18O gradients in the interior relative to those in ?15N. This decoupling is characterized and quantified in the box model, and agreement with data shows its clear importance in the real ocean. At the same time, the model appears to generate overly strong gradients in both ?18O and ?15N within the ocean interior and a mean ocean nitrate ?18O that is higher than measured. This may be due to, in the model, too strong an impact of partial nitrate assimilation in the Southern Ocean on the ?15N and ?18O of preformed nitrate and/or too little cycling of intermediate-depth nitrate through the low latitude photic zone.
Nitrate, Stable isotope, Biogeochemistry, Numerical model, Nutrients
1419-1439
Sigman, Daniel M.
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DiFiore, Peter J.
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Hain, Mathis P.
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Deutsch, Curtis
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Wang, Yi
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Karl, David M.
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Knapp, Angela N.
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Lehmann, Moritz F.
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Pantoja, Silvio
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September 2009
Sigman, Daniel M.
b7945f7b-3945-4082-9204-feb1eb8cfed7
DiFiore, Peter J.
050220d5-2a7b-423d-856b-0a0c0c77101b
Hain, Mathis P.
d31486bc-c473-4c34-a814-c0834640876c
Deutsch, Curtis
67b5db82-9f06-4fbd-8e35-9b3d6de02c9c
Wang, Yi
aa6a67f8-e22e-484d-8077-638d6c9b2f1a
Karl, David M.
c462949a-fd21-40c5-968a-61d5ec967858
Knapp, Angela N.
1d2658f0-e0ec-417d-a9b3-17750ca5886f
Lehmann, Moritz F.
9ec30496-6d95-4cc0-85e1-b051cf156159
Pantoja, Silvio
fe4bb25e-f45f-4437-a523-8f2896d9b81a
Sigman, Daniel M., DiFiore, Peter J., Hain, Mathis P., Deutsch, Curtis, Wang, Yi, Karl, David M., Knapp, Angela N., Lehmann, Moritz F. and Pantoja, Silvio
(2009)
The dual isotopes of deep nitrate as a constraint on the cycle and budget of oceanic fixed nitrogen.
Deep Sea Research Part I: Oceanographic Research Papers, 56 (9), .
(doi:10.1016/j.dsr.2009.04.007).
Abstract
We compare the output of an 18-box geochemical model of the ocean with measurements to investigate the controls on both the mean values and variation of nitrate ?15N and ?18O in the ocean interior. The ?18O of nitrate is our focus because it has been explored less in previous work. Denitrification raises the ?15N and ?18O of mean ocean nitrate by equal amounts above their input values for N2 fixation (for ?15N) and nitrification (for ?18O), generating parallel gradients in the ?15N and ?18O of deep ocean nitrate. Partial nitrate assimilation in the photic zone also causes equivalent increases in the ?15N and ?18O of the residual nitrate that can be transported into the interior. However, the regeneration and nitrification of sinking N can be said to decouple the N and O isotopes of deep ocean nitrate, especially when the sinking N is produced in a low latitude region, where nitrate consumption is effectively complete. The ?15N of the regenerated nitrate is equivalent to that originally consumed, whereas the regeneration replaces nitrate previously elevated in ?18O due to denitrification or nitrate assimilation with nitrate having the ?18O of nitrification. This lowers the ?18O of mean ocean nitrate and weakens nitrate ?18O gradients in the interior relative to those in ?15N. This decoupling is characterized and quantified in the box model, and agreement with data shows its clear importance in the real ocean. At the same time, the model appears to generate overly strong gradients in both ?18O and ?15N within the ocean interior and a mean ocean nitrate ?18O that is higher than measured. This may be due to, in the model, too strong an impact of partial nitrate assimilation in the Southern Ocean on the ?15N and ?18O of preformed nitrate and/or too little cycling of intermediate-depth nitrate through the low latitude photic zone.
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Published date: September 2009
Keywords:
Nitrate, Stable isotope, Biogeochemistry, Numerical model, Nutrients
Organisations:
Paleooceanography & Palaeoclimate
Identifiers
Local EPrints ID: 358646
URI: http://eprints.soton.ac.uk/id/eprint/358646
ISSN: 0967-0637
PURE UUID: c65a5f06-f619-4fd6-ad29-f8e37f450142
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Date deposited: 09 Oct 2013 14:53
Last modified: 14 Mar 2024 15:07
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Contributors
Author:
Daniel M. Sigman
Author:
Peter J. DiFiore
Author:
Curtis Deutsch
Author:
Yi Wang
Author:
David M. Karl
Author:
Angela N. Knapp
Author:
Moritz F. Lehmann
Author:
Silvio Pantoja
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