Terzer-Wassmuth Stefan, Ortega Lucía, Araguás-Araguás Luis, Wassenaar Leonard I
Isotope Hydrology Section/Laboratory, International Atomic Energy Agency, Vienna, Austria.
Isotopes Environ Health Stud. 2020 Oct-Dec;56(5-6):391-401. doi: 10.1080/10256016.2020.1763338. Epub 2020 May 26.
The use of stable isotopes ( H and O) is widespread in water resources studies. In the Latin America and the Caribbean (LAC) region, the application of isotope techniques has increased in the past decade, but there remains room to gain self-reliance in environmental isotope studies, necessitating easy and fast access to good-quality isotope data. To that end, in 2018 the IAEA carried out the first regional interlaboratory comparison exercise, testing the analytical performance of 25 laboratories using isotope-ratio mass spectrometry and laser absorption spectroscopy. The three test samples covered a commonly observed range of 0 to -16 ‰ O and 0 to -115 ‰ H. z- and ζ-scores were used to benchmark laboratories' performance against a strict criterion. We found that 81% of the laboratories had satisfactory performance ( ≤ 2) for H but only 54% achieved similar scores for O. Only a minor fraction of results (12% for H and 15% for O) were unsatisfactory. The larger number of questionable results for O confirmed the challenges in laser absorption spectroscopy for this isotope. Besides instrumental performance, the sample throughput, laboratory reference materials, and data post-processing were contributing factors to inaccurate or imprecise performance.
稳定同位素(氢和氧)在水资源研究中应用广泛。在拉丁美洲和加勒比地区,同位素技术的应用在过去十年有所增加,但在环境同位素研究方面实现自主仍有空间,这需要能够轻松快速获取高质量的同位素数据。为此,国际原子能机构于2018年开展了首次区域实验室间比对活动,测试了25个使用同位素比率质谱法和激光吸收光谱法的实验室的分析性能。三个测试样品涵盖了常见的0至 -16‰氧和0至 -115‰氢的范围。z分数和ζ分数被用来根据严格标准衡量实验室的性能。我们发现,81%的实验室在氢方面表现令人满意(z≤2),但只有54%的实验室在氧方面取得了类似分数。只有一小部分结果(氢为12%,氧为15%)不令人满意。氧的可疑结果较多,证实了该同位素在激光吸收光谱法中存在的挑战。除了仪器性能外,样品通量、实验室参考物质和数据后处理也是导致性能不准确或不精确的因素。
