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A new mathematical approach for calculating the contribution of anammox, denitrification and atmosphere to an N 2 mixture based on a 15 N tracer technique
Author(s) -
Spott Oliver,
Stange C. Florian
Publication year - 2007
Publication title -
rapid communications in mass spectrometry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.528
H-Index - 136
eISSN - 1097-0231
pISSN - 0951-4198
DOI - 10.1002/rcm.3098
Subject(s) - anammox , denitrification , chemistry , nitrate , nitrite , ammonium , tracer , environmental chemistry , atmosphere (unit) , nitrogen , inorganic chemistry , denitrifying bacteria , meteorology , organic chemistry , physics , nuclear physics
Denitrification and anaerobic ammonium oxidation (anammox) have been identified as biotic key processes of N 2 formation during global nitrogen cycling. Based on the principle of a 15 N tracer technique, new analytical expressions have been derived for a calculation of the fractions of N 2 simultaneously released by anammox and denitrification. An omnipresent contamination with atmospheric N 2 is also taken into account and is furthermore calculable in terms of a fraction. Two different mathematical approaches are presented which permit a precise calculation of the contribution of anammox, denitrification, and atmosphere to a combined N 2 mixture. The calculation is based on a single isotopic analysis of a sampled N 2 mixture and the determination of the 15 N abundance of nitrite and nitrate (simplified approach) or of ammonium, nitrite, and nitrate (comprehensive approach). Calculations are even processable under conditions where all basal educts of anammox and denitrification (ammonium, nitrite, and nitrate) are differently enriched in 15 N. An additional determination of concentrations of dissolved N compounds is unnecessary. Finally, the presented approach is transferable to studies focused on terrestrial environments where N 2 is formed by denitrification and simultaneously by codenitrification or chemodenitrification. Copyright © 2007 John Wiley & Sons, Ltd.

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