1. An optimal strategy for determining triple oxygen isotope ratios in natural water using a commercial cavity ring-down spectrometer.
- Author
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Kim, Songyi, Han, Changhee, Moon, Jangil, Han, Yeongcheol, Hur, Soon Do, and Lee, Jeonghoon
- Subjects
OXYGEN isotopes ,WATER use ,GREENLAND ice ,SPECTROMETERS ,ANTARCTIC ice ,PENNING trap mass spectrometry - Abstract
Triple oxygen isotope ratios have been increasingly acknowledged as useful hydrological tracers but measuring both
17 O/16 O and18 O/16 O ratios with meaningful precision has been challenging due to the much lower natural abundance of17 O than16 O and even18 O. In this study, in line with the advancement of laser-based techniques and their growing applications, we demonstrate how to optimize the determination of17 O-excess (Δ17 O = ln(δ17 O + 1) − 0.528 × ln(δ18 O + 1)) in natural water using a commercial wavelength-scanned cavity ring-down spectrometer (WS-CRDS). We particularly focus on how to decide the injection numbers of samples and standard solutions utilized for normalization of sample results to the VSMOW-SLAP reference scale. With a measurement strategy aimed at an uncertainty better than 10 per meg (1σ), the Δ17 O of Greenland Ice Sheet Precipitation (GISP) is determined to be 24 ± 9 per meg (n = 104), in agreement with previous literature values. By applying this method to Antarctic glacial ice, it is shown to be useful in detecting the seasonality of Δ17 O values in Antarctic precipitation. Our approach represents an underlying analytical method that provides guidelines for determining Δ17 O from various types of natural waters. [ABSTRACT FROM AUTHOR]- Published
- 2022
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