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A reevaluation of the magnitude and impacts of anthropogenic atmospheric nitrogen inputs on the ocean

A reevaluation of the magnitude and impacts of anthropogenic atmospheric nitrogen inputs on the ocean

Authors :
Jickells, T. D.
Buitenhuis, E.
Altieri, K.
Baker, A. R.
Capone, D.
Duce, R. A.
Dentener, F.
Fennel, K.
Kanakidou, M.
LaRoche, J.
Lee, K.
Liss, P.
Middelburg, J. J.
Moore, J. K.
Okin, G.
Oschlies, A.
Sarin, M.
Seitzinger, S.
Sharples, J.
Singh, A.
Suntharalingam, P.
Uematsu, M.
Zamora, L. M.
Source :
Global Biogeochemical Cycles; February 2017, Vol. 31 Issue: 2 p289-305, 17p
Publication Year :
2017

Abstract

We report a new synthesis of best estimates of the inputs of fixed nitrogen to the world ocean via atmospheric deposition and compare this to fluvial inputs and dinitrogen fixation. We evaluate the scale of human perturbation of these fluxes. Fluvial inputs dominate inputs to the continental shelf, and we estimate that about 75% of this fluvial nitrogen escapes from the shelf to the open ocean. Biological dinitrogen fixation is the main external source of nitrogen to the open ocean, i.e., beyond the continental shelf. Atmospheric deposition is the primary mechanism by which land‐based nitrogen inputs, and hence human perturbations of the nitrogen cycle, reach the open ocean. We estimate that anthropogenic inputs are currently leading to an increase in overall ocean carbon sequestration of ~0.4% (equivalent to an uptake of 0.15 Pg C yr−1and less than the Duce et al. (2008) estimate). The resulting reduction in climate change forcing from this ocean CO2uptake is offset to a small extent by an increase in ocean N2O emissions. We identify four important feedbacks in the ocean atmosphere nitrogen system that need to be better quantified to improve our understanding of the perturbation of ocean biogeochemistry by atmospheric nitrogen inputs. These feedbacks are recycling of (1) ammonia and (2) organic nitrogen from the ocean to the atmosphere and back, (3) the suppression of nitrogen fixation by increased nitrogen concentrations in surface waters from atmospheric deposition, and (4) increased loss of nitrogen from the ocean by denitrification due to increased productivity stimulated by atmospheric inputs. A new estimate of total atmospheric fixed nitrogen inputs to the ocean (39 Tg N yr−1) and its spatial distribution is presentedThe effects of atmospheric deposition on the oceans are estimated as an increase of productivity equivalent to 0.15 Pg C yr−1Four key uncertainties in these estimates are identified

Details

Language :
English
ISSN :
08866236 and 19449224
Volume :
31
Issue :
2
Database :
Supplemental Index
Journal :
Global Biogeochemical Cycles
Publication Type :
Periodical
Accession number :
ejs45299512
Full Text :
https://doi.org/10.1002/2016GB005586