The study reveals that for future research on N2O isotopocules, standardisation against N2O reference material is essential to improve interlaboratory compatibility. For atmospheric monitoring activities, we suggest N2O in whole air as a unifying scale anchor.
Rationale
Existing methods for the measurement of the 15N/14N isotopic composition of ammonium and nitrate are either only suitable for labelled samples or require considerable sample preparation efforts (or both). Our goal was to modify an existing analytical approach to allow for natural abundance precision levels.
Methods
Published reaction protocols were used to convert ammonium into N2 by NaOBr and nitrate into N2O by TiCl3. A membrane inlet system was developed and coupled to an isotope ratio mass spectrometer to allow precise determination of the analytes.
Results
Concentrations of ≥35 μmol/L N for both ammonium or nitrate could be analysed for δ15N values with precisions of better than 0.9 mUr. While ammonium analyses exhibited a small concentration dependency and an offset of 2.7 mUr at high ammonium concentrations irrespective of the standard isotopic composition, nitrate analysis showed no offset but a blank contribution visible at very low concentrations.
Conclusions
The presented method is capable of fast measurement of δ15N values in ammonium and nitrate from aqueous samples with reasonable accuracy at natural abundance levels. It will thus facilitate the application of isotopic methods to studies of nitrogen cycling in ecosystems.
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