Knowledge Management System of Northwest Institute of Plateau Biology, CAS
Separation and analysis of chlorine isotopes in higher plants | |
Sun, Aide ; Xu, Qingcai ; Xu, Shujian ; Shen, Hongyuan ; Sun, Jing ; Zhang, Yanling | |
2014-08-14 | |
发表期刊 | CHEMICAL GEOLOGY ; Sun, AD; Xu, QC; Xu, SJ; Shen, HY; Sun, J; Zhang, YL.Separation and analysis of chlorine isotopes in higher plants,CHEMICAL GEOLOGY,2014,381():21 |
摘要 | A novel chemical mass spectrographic method was used in the determination of chlorine (Cl) isotopes in plant tissues. The procedure includes dry ashing, three-step ion chromatographic separation of Cl isotopes, and isotope ratio determination based on Cs2Cl+ ion in positive thermal ionization mass spectrometry. The recovery of the method and the fractionation of Cl isotopes were validated using certified reference standard materials. The pretreatment strongly eliminated the effects of organic impurities and other anionic interferences, especially soluble nitrates and sulfates. The results show that there was severe fractionation of Cl isotopic composition in the tissues of plant samples, which might be caused by different molecular mechanisms of uptake and translocation of Cl within plants. The observed Cl isotopic variation is considered to be a useful isotope signature of living systems, which may be used to understand better the Cl cycling process in the environment. (C) 2014 Elsevier B.V. All rights reserved.; A novel chemical mass spectrographic method was used in the determination of chlorine (Cl) isotopes in plant tissues. The procedure includes dry ashing, three-step ion chromatographic separation of Cl isotopes, and isotope ratio determination based on Cs2Cl+ ion in positive thermal ionization mass spectrometry. The recovery of the method and the fractionation of Cl isotopes were validated using certified reference standard materials. The pretreatment strongly eliminated the effects of organic impurities and other anionic interferences, especially soluble nitrates and sulfates. The results show that there was severe fractionation of Cl isotopic composition in the tissues of plant samples, which might be caused by different molecular mechanisms of uptake and translocation of Cl within plants. The observed Cl isotopic variation is considered to be a useful isotope signature of living systems, which may be used to understand better the Cl cycling process in the environment. (C) 2014 Elsevier B.V. All rights reserved. |
文献类型 | 期刊论文 |
条目标识符 | http://210.75.249.4/handle/363003/52611 |
专题 | 中国科学院西北高原生物研究所 |
推荐引用方式 GB/T 7714 | Sun, Aide,Xu, Qingcai,Xu, Shujian,et al. Separation and analysis of chlorine isotopes in higher plants[J]. CHEMICAL GEOLOGY, Sun, AD; Xu, QC; Xu, SJ; Shen, HY; Sun, J; Zhang, YL.Separation and analysis of chlorine isotopes in higher plants,CHEMICAL GEOLOGY,2014,381():21,2014. |
APA | Sun, Aide,Xu, Qingcai,Xu, Shujian,Shen, Hongyuan,Sun, Jing,&Zhang, Yanling.(2014).Separation and analysis of chlorine isotopes in higher plants.CHEMICAL GEOLOGY. |
MLA | Sun, Aide,et al."Separation and analysis of chlorine isotopes in higher plants".CHEMICAL GEOLOGY (2014). |
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