Automated calibration of laser spectrometer measurements of δ¹⁸O and δ²H values in water vapour using a dew point generator

Journal Publication ResearchOnline@JCU
Munksgaard, Niels C.;Cheesman, Alexander W.;Gray-Spence, Andrew;Cernusak, Lucas A.;Bird, Michael I.
Abstract

Rationale: Continuous measurement of stable O and H isotope compositions in water vapour requires automated calibration for remote field deployments. We developed a new low-cost device for calibration of both water vapour mole fraction and isotope composition. Methods: We coupled a commercially available dew point generator (DPG) to a laser spectrometer and developed hardware for water and air handling along with software for automated operation and data processing. We characterised isotopic fractionation in the DPG, conducted a field test and assessed the influence of critical parameters on the performance of the device. Results: An analysis time of 1hour was sufficient to achieve memory-free analysis of two water vapour standards and the O-18 and H-2 values were found to be independent of water vapour concentration over a range of approximate to 20,000-33,000ppm. The reproducibility of the standard vapours over a 10-day period was better than 0.14 and 0.75 parts per thousand for delta O-18 and delta H-2 values, respectively (1 sigma, n=11) prior to drift correction and calibration. The analytical accuracy was confirmed by the analysis of a third independent vapour standard. The DPG distillation process requires that isotope calibration takes account of DPG temperature, analysis time, injected water volume and air flow rate. Conclusions: The automated calibration system provides high accuracy and precision and is a robust, cost-effective option for long-term field measurements of water vapour isotopes. The necessary modifications to the DPG are minor and easily reversible.

Journal

Rapid Communications in Mass Spectrometry

Publication Name

N/A

Volume

32

ISBN/ISSN

1097-0231

Edition

N/A

Issue

12

Pages Count

N/A

Location

N/A

Publisher

John Wiley & Sons

Publisher Url

N/A

Publisher Location

N/A

Publish Date

N/A

Url

N/A

Date

N/A

EISSN

N/A

DOI

10.1002/rcm.8131