Preventing drift of oxygen isotopes of CO₂-in-air stored in glass sample flasks: new insights and recommendations.

IF 1.1 4区环境科学与生态学 Q4 CHEMISTRY, INORGANIC & NUCLEAR

Isotopes in Environmental and Health Studies Pub Date : 2023-06-01 DOI:10.1080/10256016.2023.2234594

Pharahilda M Steur, Dennis Botter, Hubertus A Scheeren, Heiko Moossen, Michael Rothe, Harro A J Meijer

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Abstract

It is known that the oxygen isotope composition of CO₂-in-air, when stored over longer time periods in glass sample flasks, tends to drift to more negative values while the carbon isotope composition remains stable. The exact mechanisms behind this drift were still unclear. New experimental results reveal that water already inside the flasks during sampling plays a major role in the drift of the oxygen isotopes. A drying method to remove any water sticking to the inner walls by evacuating the flasks for more than 72 h while heating to 60 °C significantly decreases drift of the oxygen isotopes. Moreover, flasks not dried with this method showed higher differences among drift rates of individual flasks. This is explained through the buildup of H₂O molecules sticking to the inner walls. Humidity of the air samples in the flasks as well as surface characteristics will lead to differences among flasks. Results also show that permeability of water is higher through Viton O-ring flask seals than through polychlorotrifluoroethylene (PCTFE) shaft seals, and that the stability of flasks sealed with the latter is significantly better over time.

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防止储存在玻璃样品烧瓶中的空气中二氧化碳的氧同位素漂移:新的见解和建议。

众所周知，空气中二氧化碳的氧同位素组成，当在玻璃样品烧瓶中储存较长时间后，倾向于向负值漂移，而碳同位素组成保持稳定。这种漂移背后的确切机制尚不清楚。新的实验结果表明，在采样过程中，烧瓶内的水在氧同位素的漂移中起着主要作用。在加热到60°C的过程中，通过将烧瓶抽离72小时以上来去除粘在内壁上的任何水的干燥方法可以显著减少氧同位素的漂移。此外，未用这种方法干燥的烧瓶在单个烧瓶的漂移速率之间存在较大差异。这可以通过黏附在内壁上的水分子的积累来解释。烧瓶内空气样品的湿度和表面特性会导致不同烧瓶之间的差异。结果还表明，与聚氯三氟乙烯(PCTFE)轴封相比，通过Viton o型环密封的烧瓶透水性更高，并且随着时间的推移，后者密封的烧瓶的稳定性明显更好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Isotopes in Environmental and Health Studies 环境科学-环境科学

CiteScore

2.80

自引率

7.70%

发文量

审稿时长

3.0 months

期刊介绍： Isotopes in Environmental and Health Studies provides a unique platform for stable isotope studies in geological and life sciences, with emphasis on ecology. The international journal publishes original research papers, review articles, short communications, and book reviews relating to the following topics: -variations in natural isotope abundance (isotope ecology, isotope biochemistry, isotope hydrology, isotope geology) -stable isotope tracer techniques to follow the fate of certain substances in soil, water, plants, animals and in the human body -isotope effects and tracer theory linked with mathematical modelling -isotope measurement methods and equipment with respect to environmental and health research -diagnostic stable isotope application in medicine and in health studies -environmental sources of ionizing radiation and its effects on all living matter