Rationale:The recently reported acetone method for δ 15 N-NO 3 − analysis is a straightforward sample preparation process. However, the applicability of the method to water samples having high salinity and low concentration of nitrates is not good. Therefore, we developed a new method to measure δ 15 N-NO 3 − values in a saline sample having low nitrate concentration by improving the acetone method (the adapted method), and verified its usability. Methods: The adapted method involves (a) reducing a large volume of sample by evaporation, (b) removing NaCl by mixing acetone twice, (c) changing the volume ratio of the acetone/NaI/n-hexane solvent from 21/0.35/10 to 30/0.25/5 mL, (d) using an increased volume of BaI 2 (0.1 M)from 0.75 to 1 mL, and (e) using an alternative capsule drying process of lyophilization. Results: The adapted method has provided nearly exact δ 15 N-NO 3 − values of standard materials with high precision and accuracy (<0.1‰) at a lower cutoff of 2 μmol of NO 3 − in a sample capsule. The recovery of NO 3 − in this method was significantly dependent (P < 0.05) on the Cl − concentration of the samples. However, a minimum recovery of 60% NO 3 − , required for the reproducibility of the accurate value of δ 15 N-NO 3 − , was possible from the concentrated sample aliquot containing up to 6 g of Cl − . The application of the adapted acetone method to creek water samples, collected from mangrove watersheds, has shown high consistency in the analysis results. Conclusions:It was proved that the inexpensive and easy-to-handle adapted acetone method could be used for the δ 15 N-NO 3 − analysis of saline water samples when the sample aliquot contained about 4 μmol of NO 3 − with less than 6 g of Cl − .
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