更正“维也纳Peedee菱铁矿碳同位素三角洲尺度的‘LSVEC问题’”。

IF 1.8 3区化学 Q4 BIOCHEMICAL RESEARCH METHODS

Rapid Communications in Mass Spectrometry Pub Date : 2024-12-05 DOI:10.1002/rcm.9962

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A correct version of the Figure with caption is given here (reference numbering as per the original article):The third paragraph of Section 5.4 of the paper (entitled “Proposal 2 – maintain only the VPDB scale and remove LSVEC entirely”) also has incorrect citations in the final parenthesis. This should read “(see e.g. Table 9 of Qi et al [18] and Hélie et al [19],).” These errors were inadvertently introduced during typesetting and unfortunately not corrected during proofing.The authors wish to thank Sergey Assonov for bringing most of these errors to their attention and apologise for any inconvenience caused.\n 1. P. J. H. Dunn and F. Camin, “ The ‘LSVEC problem’ for the Vienna Peedee belemnite carbon isotope-delta scale,” Rapid Communications in Mass Spectrometry. 38, no. 17 (2024): e9841, https://doi.org/10.1002/rcm.9841.\n \n 8. T. B. Coplen, W. A. Brand, M. Gehre, et al., “ New Guidelines for δ13C Measurements,” Analytical Chemistry 78, no. 7 (2006): 2439–2441, https://doi.org/10.1021/ac052027c.\n \n 13. P. Ghosh, M. Patecki, M. Rothe, and W. A. Brand, “ Calcite-CO2 mixed into CO2-free air: a new CO2-in-air stable isotope reference material for the VPDB scale,” Rapid Communications in Mass Spectrometry. 19, no. 8 (2005): 1097–1119, https://doi.org/10.1002/rcm.1886.\n \n 14. R. M. Verkouteren and D. B. Klinedinst, Value Assignment and Uncertainty Estimation of Selected Light Stable Isotope Reference Materials: RMs 8543–8545, RMs 8562–8564, and RM 8566 (National Institute of Standards and Technology, 2004).\n \n 15. H. Qi, T. B. Coplen, H. Geilmann, W. A. Brand, and J. K. Böhlke, “ Two new organic reference materials for δ13C and δ15N measurements and a new value for the δ13C of NBS 22 oil,” Rapid Communications in Mass Spectrometry. 17, no. 22 (2003): 2483–2487, https://doi.org/10.1002/rcm.1219.\n \n 16. W. 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引用次数: 0

摘要

Dunn， PJH, Camin， F.维也纳Peedee菱铁矿碳同位素三角洲尺度的“LSVE问题”。快速共质谱。2024；38 (17): e9841。https://doi.org/10.1002/rcm.9841。作者已经意识到，在题为“维也纳Peedee菱铁矿碳同位素-三角洲尺度的“LSVEC问题”（RCM 28 e9841）[1]”的文章图3中，在引用和包含被认为未发表的数据时存在一些错误。这些错误包括：首先，图3中名为“asonov et al（2015）”的数据系列不应该被纳入，因为它被认为是未发表的数据。这个错误不会改变链接到该图的文本中关于LSVEC指定同位素δ值的讨论。此处给出了带标题的正确版本的图（参考文献编号根据原文）：论文第5.4节的第三段（题为“提案2 -仅保留VPDB规模并完全删除LSVEC”）在最后的括号中也有不正确的引用。这应该是“（例如，参见Qi et al[19]和hsamlie et al[19]的表9，）。”这些错误是在排版时无意中引入的，不幸的是在打样时没有纠正。作者希望感谢Sergey Assonov使他们注意到这些错误，并对造成的任何不便表示歉意。1. P. J. H. Dunn和F. Camin，““LSVEC问题”在维也纳Peedee锆石碳同位素三角洲尺度上的应用”，《质谱快速通信》第38期。17 (2024): e9841, https://doi.org/10.1002/rcm.9841。8. T. B. Coplen， W. A. Brand， M. Gehre等，“δ13C测量的新指南”，《分析化学》78，no。7 (2006): 2439-2441, https://doi.org/10.1021/ac052027c。13. P. Ghosh， M. Patecki， M. Rothe和W. a . Brand，“方解石-二氧化碳混合到无二氧化碳空气中：一种新的空气中二氧化碳稳定同位素参考物质，用于VPDB尺度，”快速通信质谱，第19期。8 (2005): 1097-1119, https://doi.org/10.1002/rcm.1886。14. R. M. Verkouteren和D. B. klindinst，选择的轻稳定同位素标准物质的值分配和不确定度估计：RMs 8543-8545， RMs 8562-8564和RMs 8566（国家标准与技术研究院，2004）。15. H. Qi， T. B. Coplen， H. Geilmann， W. a . Brand， J. K. Böhlke，“两种测量δ13C和δ15N的新有机标准物质和NBS 22油δ13C的新值”，《质谱快速通信》，第17期。22 (2003): 2483-2487, https://doi.org/10.1002/rcm.1219。16. W. Stichler，“用于碳氧同位素比值测量的新材料的实验室间比较”，载于《轻元素稳定同位素参考与比较材料》。TECDOC第825卷（原子能机构，1995年），67-74。18. H. Qi， T. B. Coplen， S. J. Mroczkowski，等，“l-谷氨酸，USGS41a，用于δ13C和δ15N测量的新有机标准物质-替代USGS41，”快速通信质谱，第30期。7 (2016): 859-866, https://doi.org/10.1002/rcm.7510。19. J. F. hsamlie， A. Adamowicz-Walczak， P. Middlestead， M. M. G. Chartrand， Z. Mester，和J. Meija，“维也纳Peedee铍矿碳同位素比例尺度实现中的不连续性”，《分析化学》93，第2期。31 (2021): 10740-10743, https://doi.org/10.1021/acs.analchem.1c02458。20.。S. asonov，“国际原子能机构稳定同位素参考产品开发技术会议总结和建议（2016年11月21日至25日）”，《质谱快速通信》32期，第2期。10 (2018): 827-830, https://doi.org/10.1002/rcm.8102。25. 陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军。20 (2020): e8867, https://doi.org/10.1002/rcm.8867。26. S. Assonov， A. Fajgelj， J. F. h lie， C. Allison， M. Gröning，“基于小不确定度的新标准物质IAEA-610， IAEA-611和IAEA-612的VPDB δ13C标度表征”，质谱快速通信35，no。7 (2021): e9014, https://doi.org/10.1002/rcm.9014。27. S. Assonov， A. Fajgelj， C. Allison, and M. Gröning，“基于多点尺度锚定RMs的稳定同位素参考物质的计量可追溯性和层次：VPDB δ13C尺度的修正”，《质谱快速通信》第35期。8 (2021): e9018, https://doi.org/10.1002/rcm.9018。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Correction to “The ‘LSVEC problem’ for the Vienna Peedee belemnite carbon isotope-delta scale”

查看原文本刊更多论文

Correction to “The ‘LSVEC problem’ for the Vienna Peedee belemnite carbon isotope-delta scale”

Dunn, PJH, Camin, F. The ‘LSVE problem’ for the Vienna Peedee belemnite carbon isotope-delta scale. Rapid Commun Mass Spectrom. 2024; 38(17):e9841. https://doi.org/10.1002/rcm.9841.

The authors have been made aware of some errors in referencing as well as inclusion of data considered unpublished within Figure 3 of the article entitled “The “LSVEC problem” for the Vienna Peedee belemnite carbon isotope-delta scale” (RCM 28 e9841) [1]. These errors include the following:

Firstly, the data series named “Assonov et al (2015)” within Figure 3 should not have been included as it is considered unpublished data. This error does not alter the discussion surrounding the assigned isotope delta value of LSVEC within the text linked to the figure. A correct version of the Figure with caption is given here (reference numbering as per the original article):

The third paragraph of Section 5.4 of the paper (entitled “Proposal 2 – maintain only the VPDB scale and remove LSVEC entirely”) also has incorrect citations in the final parenthesis. This should read “(see e.g. Table 9 of Qi et al [18] and Hélie et al [19],).” These errors were inadvertently introduced during typesetting and unfortunately not corrected during proofing.

The authors wish to thank Sergey Assonov for bringing most of these errors to their attention and apologise for any inconvenience caused.

1. P. J. H. Dunn and F. Camin, “ The ‘LSVEC problem’ for the Vienna Peedee belemnite carbon isotope-delta scale,” Rapid Communications in Mass Spectrometry. 38, no. 17 (2024): e9841, https://doi.org/10.1002/rcm.9841.

8. T. B. Coplen, W. A. Brand, M. Gehre, et al., “ New Guidelines for δ13C Measurements,” Analytical Chemistry 78, no. 7 (2006): 2439–2441, https://doi.org/10.1021/ac052027c.

13. P. Ghosh, M. Patecki, M. Rothe, and W. A. Brand, “ Calcite-CO2 mixed into CO2-free air: a new CO2-in-air stable isotope reference material for the VPDB scale,” Rapid Communications in Mass Spectrometry. 19, no. 8 (2005): 1097–1119, https://doi.org/10.1002/rcm.1886.

14. R. M. Verkouteren and D. B. Klinedinst, Value Assignment and Uncertainty Estimation of Selected Light Stable Isotope Reference Materials: RMs 8543–8545, RMs 8562–8564, and RM 8566 (National Institute of Standards and Technology, 2004).

15. H. Qi, T. B. Coplen, H. Geilmann, W. A. Brand, and J. K. Böhlke, “ Two new organic reference materials for δ13C and δ15N measurements and a new value for the δ13C of NBS 22 oil,” Rapid Communications in Mass Spectrometry. 17, no. 22 (2003): 2483–2487, https://doi.org/10.1002/rcm.1219.

16. W. Stichler, “ Interlaboratory comparison of new materials for carbon and oxygen isotope ratio measurements,” in Reference and Intercomparison Materials for Stable Isotopes of Light Elements. Vol TECDOC 825 (IAEA, 1995), 67–74.

18. H. Qi, T. B. Coplen, S. J. Mroczkowski, et al., “ A new organic reference material, l-glutamic acid, USGS41a, for δ13C and δ15N measurements − a replacement for USGS41,” Rapid Communications in Mass Spectrometry 30, no. 7 (2016): 859–866, https://doi.org/10.1002/rcm.7510.

19. J. F. Hélie, A. Adamowicz-Walczak, P. Middlestead, M. M. G. Chartrand, Z. Mester, and J. Meija, “ Discontinuity in the Realization of the Vienna Peedee Belemnite Carbon Isotope Ratio Scale,” Analytical Chemistry 93, no. 31 (2021): 10740–10743, https://doi.org/10.1021/acs.analchem.1c02458.

20. S. Assonov, “ Summary and recommendations from the International Atomic Energy Agency technical meeting on the development of stable isotope reference products (21–25 November 2016),” Rapid Communications in Mass Spectrometry 32, no. 10 (2018): 827–830, https://doi.org/10.1002/rcm.8102.

25. S. Assonov, M. Groening, A. Fajgelj, J. F. Hélie, and C. Hillaire-Marcel, “ Preparation and characterization of IAEA-603, a new primary reference material aimed at the VPDB scale realisation for δ13C and δ18O determination,” Rapid Communications in Mass Spectrometry 34, no. 20 (2020): e8867, https://doi.org/10.1002/rcm.8867.

26. S. Assonov, A. Fajgelj, J. F. Hélie, C. Allison, and M. Gröning, “ Characterisation of new reference materials IAEA-610, IAEA-611 and IAEA-612 aimed at the VPDB δ13C scale realisation with small uncertainty,” Rapid Communications in Mass Spectrometry 35, no. 7 (2021): e9014, https://doi.org/10.1002/rcm.9014.

27. S. Assonov, A. Fajgelj, C. Allison, and M. Gröning, “ On the metrological traceability and hierarchy of stable isotope reference materials aimed at realisation of the VPDB scale: revision of the VPDB δ13C scale based on multipoint scale-anchoring RMs,” Rapid Communications in Mass Spectrometry 35, no. 8 (2021): e9018, https://doi.org/10.1002/rcm.9018.

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来源期刊

Rapid Communications in Mass Spectrometry 化学-分析化学

CiteScore

4.10

自引率

5.00%

发文量

219

审稿时长

2.6 months

期刊介绍： Rapid Communications in Mass Spectrometry is a journal whose aim is the rapid publication of original research results and ideas on all aspects of the science of gas-phase ions; it covers all the associated scientific disciplines. There is no formal limit on paper length ("rapid" is not synonymous with "brief"), but papers should be of a length that is commensurate with the importance and complexity of the results being reported. Contributions may be theoretical or practical in nature; they may deal with methods, techniques and applications, or with the interpretation of results; they may cover any area in science that depends directly on measurements made upon gaseous ions or that is associated with such measurements.