使用新型多低温捕集器/气相色谱/同位素比率质谱系统对烧瓶空气样品中的甲烷δ(13)C和δ(2)H值以及二氧化碳δ(13)C和δ(18)O值进行自动同步测量。

Automated simultaneous measurement of the δ(13) C and δ(2) H values of methane and the δ(13) C and δ(18) O values of carbon dioxide in flask air samples using a new multi cryo-trap/gas chromatography/isotope ratio mass spectrometry system.

作者信息

Brand Willi A, Rothe Michael, Sperlich Peter, Strube Martin, Wendeberg Magnus

机构信息

Max-Planck-Institute for Biogeochemistry (Beutenberg Campus), Hans-Knoell-Str. 10, 07745, Jena, Germany.

NIWA (National Institute of Water and Atmospheric Research), 301 Evans Bay Parade, Wellington, 6021, New Zealand.

出版信息

Rapid Commun Mass Spectrom. 2016 Jul 15;30(13):1523-39. doi: 10.1002/rcm.7587.

DOI:10.1002/rcm.7587

PMID:27321840

Abstract

RATIONALE

The isotopic composition of greenhouse gases helps to constrain global budgets and to study sink and source processes. We present a new system for high-precision stable isotope measurements of carbon, hydrogen and oxygen in atmospheric methane and carbon dioxide. The design is intended for analyzing flask air samples from existing sampling programs without the need for extra sample air for methane analysis.

METHODS

CO2 and CH4 isotopes are measured simultaneously using two isotope ratio mass spectrometers, one for the analysis of δ(13) C and δ(18) O values and the second one for δ(2) H values. The inlet carousel delivers air from 16 sample positions (glass flasks 1-5 L and high-pressure cylinders). Three 10-port valves take aliquots from the sample stream. CH4 from 100-mL air aliquots is preconcentrated in 0.8-mL sample loops using a new cryo-trap system. A precisely calibrated working reference air is used in parallel with the sample according to the Principle of Identical Treatment.

RESULTS

It takes about 36 hours for a fully calibrated analysis of a complete carousel including extractions of four working reference and one quality control reference air. Long-term precision values, as obtained from the quality control reference gas since 2012, account for 0.04 ‰ (δ(13) C values of CO2 ), 0.07 ‰ (δ(18) O values of CO2 ), 0.11 ‰ (δ(13) C values of CH4 ) and 1.0 ‰ (δ(2) H values of CH4 ). Within a single day, the system exhibits a typical methane δ(13) C standard deviation (1σ) of 0.06 ‰ for 10 repeated measurements.

CONCLUSIONS

The system has been in routine operation at the MPI-BGC since 2012. Consistency of the data and compatibility with results from other laboratories at a high precision level are of utmost importance. A high sample throughput and reliability of operation are important achievements of the presented system to cope with the large number of air samples to be analyzed. Copyright © 2016 John Wiley & Sons, Ltd.

摘要

原理

温室气体的同位素组成有助于限制全球预算并研究汇和源过程。我们提出了一种用于高精度测量大气中甲烷和二氧化碳中碳、氢和氧稳定同位素的新系统。该设计旨在分析现有采样计划中的气袋空气样本，无需额外的样本空气用于甲烷分析。

方法

使用两台同位素比率质谱仪同时测量二氧化碳和甲烷的同位素，一台用于分析δ(13)C和δ(18)O值，另一台用于分析δ(2)H值。进样转盘从16个样品位置（1 - 5升玻璃气袋和高压气瓶）输送空气。三个10通阀从样品流中抽取等分试样。使用新的低温捕集系统，将100毫升空气等分试样中的甲烷预浓缩在0.8毫升样品环中。根据相同处理原则，将精确校准的工作参考空气与样品并行使用。

结果

对一个完整的转盘进行包括提取四个工作参考空气和一个质量控制参考空气的完全校准分析大约需要36小时。自2012年以来从质量控制参考气体获得的长期精度值为：二氧化碳的δ(13)C值为0.04‰，二氧化碳的δ(18)O值为0.07‰，甲烷的δ(13)C值为0.11‰，甲烷的δ(2)H值为1.0‰。在一天内，该系统对10次重复测量的典型甲烷δ(13)C标准偏差（1σ）为0.06‰。