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Novel GC/Py/GC/IRMS-Based Method for Isotope Measurements of Nitrate and Nitrite. I: Converting Nitrate to Benzyl Nitrate for δ<sup>18</sup>O Analysis

Bo Wang, Shuai Zheng, Yan Huang, Ying Wang, Zhenyu Zhu, Ran Ma, Yu Zhao, Xijie Yin, Jing Su, Juan Xiong, Benli Zhang, Youping Zhou

2020Analytical Chemistry10 citationsDOI

Abstract

The 18O/16O (and 15N/14N) ratio of natural nitrate (NO3–) and nitrite (NO2–) can be used to extract valuable information about their source and fate as environmental contaminants, their metabolism as macronutrients in plants and animals, and their behavior in the N biogeochemical cycle. We developed an accurate, precise, sensitive (minimum sample size: 0.2 μg NO3–-equivalent), and reliable (minimal oxygen exchange, loss, or gain) method to selectively isolate and purify nitrate and nitrite from natural water, soil, air, and plant materials by strong anion exchange (SAX) for low- to normal-salinity samples or strong cation exchange (SCX) for high-salinity samples, followed by quantitative conversion to their respective benzyl esters, which can be separated and individually analyzed for δ18O (and potentially δ15N) by gas chromatography (GC)/pyrolysis/GC/isotope-ratio mass spectrometry (IRMS). The method compares favorably with the currently popular bacterial denitrification and chemical reduction methods, in terms of sensitivity and reliability, and has the potential to simultaneously measure δ15N and δ18O of nitrate and nitrite from natural samples of various origins.

Topics & Concepts

ChemistryNitriteNitrateEnvironmental chemistryDenitrificationIsotope-ratio mass spectrometryBiogeochemical cycleMass spectrometryGas chromatographyNitrogenGas chromatography–mass spectrometryChromatographyOrganic chemistryGroundwater and Isotope GeochemistryIsotope Analysis in EcologyMarine and coastal ecosystems