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Equilibrated Gas and Carbonate Standard‐Derived Dual (Δ <sub>47</sub> and Δ <sub>48</sub> ) Clumped Isotope Values

Jamie Lucarelli, Hannah M. Carroll, R. Ulrich, Ben Elliott, Tyler B. Coplen, Robert A. Eagle, Aradhna Tripati

2022Geochemistry Geophysics Geosystems26 citationsDOIOpen Access PDF

Abstract

Abstract Carbonate clumped isotope geochemistry has primarily focused on mass spectrometric determination of m/z 47 CO 2 for geothermometry, but theoretical calculations and recent experiments indicate paired analysis of the m/z 47 ( 13 C 18 O 16 O) and m/z 48 ( 12 C 18 O 18 O) isotopologues (referred to as Δ 47 and Δ 48 ) can be used to study non‐equilibrium isotope fractionations and refine temperature estimates. We utilize 5,448 Δ 47 and 3,400 Δ 48 replicate measurements of carbonate samples and standards, and 183 Δ 47 and 195 Δ 48 replicate measurements of gas standards from 2015 to 2021 from a multi‐year and multi‐instrument data set to constrain Δ 47 and Δ 48 values for 27 samples and standards, including Devils Hole cave calcite, and study equilibrium Δ 47 ‐Δ 48 , Δ 47 ‐temperature, and Δ 48 ‐temperature relationships. We compare results to previously published findings and calculate equilibrium regressions based on data from multiple laboratories. We report acid digestion fractionation factors, Δ* 63‐47 and Δ* 64‐48 , and account for their dependence on the initial clumped isotope values of the mineral.

Topics & Concepts

CarbonateIsotopologueCalciteGeologyIsotopeMineralogyFractionationIsotope fractionationReplicateCarbonate mineralsStable isotope ratioAnalytical Chemistry (journal)ChemistryEnvironmental chemistryStatisticsMoleculeMathematicsQuantum mechanicsPhysicsOrganic chemistryIsotope Analysis in EcologyGroundwater and Isotope GeochemistryGeology and Paleoclimatology Research