Bo He1, Gerard A Olack, Albert S Colman. 1. The Department of The Geophysical Sciences, The University of Chicago, 5734 S. Ellis Ave., Chicago, IL 60637, USA.
Abstract
RATIONALE: CO(2) 'clumped-isotope' measurements (tracking enrichment of (16)O(13)C(18)O, reported as ∆(47) values, on CO(2) derived from carbonate minerals or the atmosphere) are becoming central to a wide range of geochemical investigations. We present a novel approach to address problems with instrument stability, external precision, and the analysis of small samples that have hampered the advancement of Δ(47) measurements. METHODS: We measured Δ(47) values on CO(2) gases introduced via dual inlet to an isotope ratio mass spectrometer. We developed a method for determining the 'pressure baseline' and integrating a correction to ion beam intensity measurements during analysis. We then tested this approach for both bellows and micro-volume modes of sample introduction. Heated gas and equilibrated gas lines (Δ(47) vs. δ(47)) established the effectiveness of this correction. RESULTS: We have determined that drift in instrument calibration that compromises Δ(47) measurements results from a shift in the baseline signal on sensitive collectors (m/z 47, 48, and 49) that occurs when gas is admitted to the ion source. Applying a 'pressure baseline' (PBL) correction significantly stabilizes ∆(47) measurements and reduces the dependence of ∆(47) values on δ(47) values by up to an order of magnitude. CONCLUSIONS: PBL-corrected heated gas and equilibrated gas calibrations in bellows and micro-volume modes are nearly identical and stable through time. Introduction of the PBL correction, a revision to the absolute reference frame approach to determining Δ(47) values, dramatically improves the external precision of Δ(47) measurements to near instrumental analytical uncertainty (6-8 ppm (1σ) in bellows mode; 10-12 ppm in micro-volume mode).
RATIONALE: CO(2) 'clumped-isotope' measurements (tracking enrichment of (16)O(13)C(18)O, reported as ∆(47) values, on CO(2) derived from carbonate minerals or the atmosphere) are becoming central to a wide range of geochemical investigations. We present a novel approach to address problems with instrument stability, external precision, and the analysis of small samples that have hampered the advancement of Δ(47) measurements. METHODS: We measured Δ(47) values on CO(2) gases introduced via dual inlet to an isotope ratio mass spectrometer. We developed a method for determining the 'pressure baseline' and integrating a correction to ion beam intensity measurements during analysis. We then tested this approach for both bellows and micro-volume modes of sample introduction. Heated gas and equilibrated gas lines (Δ(47) vs. δ(47)) established the effectiveness of this correction. RESULTS: We have determined that drift in instrument calibration that compromises Δ(47) measurements results from a shift in the baseline signal on sensitive collectors (m/z 47, 48, and 49) that occurs when gas is admitted to the ion source. Applying a 'pressure baseline' (PBL) correction significantly stabilizes ∆(47) measurements and reduces the dependence of ∆(47) values on δ(47) values by up to an order of magnitude. CONCLUSIONS: PBL-corrected heated gas and equilibrated gas calibrations in bellows and micro-volume modes are nearly identical and stable through time. Introduction of the PBL correction, a revision to the absolute reference frame approach to determining Δ(47) values, dramatically improves the external precision of Δ(47) measurements to near instrumental analytical uncertainty (6-8 ppm (1σ) in bellows mode; 10-12 ppm in micro-volume mode).
Authors: Stefano M Bernasconi; Inigo A Müller; Kristin D Bergmann; Sebastian F M Breitenbach; Alvaro Fernandez; David A Hodell; Madalina Jaggi; Anna Nele Meckler; Isabel Millan; Martin Ziegler Journal: Geochem Geophys Geosyst Date: 2018-09-03 Impact factor: 3.624
Authors: S M Bernasconi; M Daëron; K D Bergmann; M Bonifacie; A N Meckler; H P Affek; N Anderson; D Bajnai; E Barkan; E Beverly; D Blamart; L Burgener; D Calmels; C Chaduteau; M Clog; B Davidheiser-Kroll; A Davies; F Dux; J Eiler; B Elliott; A C Fetrow; J Fiebig; S Goldberg; M Hermoso; K W Huntington; E Hyland; M Ingalls; M Jaggi; C M John; A B Jost; S Katz; J Kelson; T Kluge; I J Kocken; A Laskar; T J Leutert; D Liang; J Lucarelli; T J Mackey; X Mangenot; N Meinicke; S E Modestou; I A Müller; S Murray; A Neary; N Packard; B H Passey; E Pelletier; S Petersen; A Piasecki; A Schauer; K E Snell; P K Swart; A Tripati; D Upadhyay; T Vennemann; I Winkelstern; D Yarian; N Yoshida; N Zhang; M Ziegler Journal: Geochem Geophys Geosyst Date: 2021-05-24 Impact factor: 3.624
Authors: Philip T Staudigel; Peter K Swart; Ali Pourmand; Carmen A Laguer-Díaz; William J Pestle Journal: Sci Adv Date: 2019-11-27 Impact factor: 14.136
Authors: Deepshikha Upadhyay; Jamie Lucarelli; Alexandrea Arnold; Randy Flores; Hayley Bricker; Robert N Ulrich; Gregory Jesmok; Lauren Santi; William Defliese; Robert A Eagle; Hannah M Carroll; Jesse Bloom Bateman; Victoria Petryshyn; Sean J Loyd; Jianwu Tang; Antra Priyadarshi; Ben Elliott; Aradhna Tripati Journal: Rapid Commun Mass Spectrom Date: 2021-07-26 Impact factor: 2.586