Effects of different constants and standards on the reproducibility of carbonate clumped isotope (Δ₄₇) measurements: Insights from a long‐term dataset

Abstract: Rationale Carbonate clumped isotope (Δ47) thermometry examines the temperature‐dependent excess abundance of the 13C–18O bond in the carbonate lattice. Inconsistent temperature calibrations and standard values have been reported among laboratories, which has led to the use of equilibrated gases and carbonate standards for standardization. Furthermore, different acid fractionation factors and isotopic parameter sets have been proposed for improving inter‐laboratory data comparability. However, few long‐term dat… Show more

“…We note that the reported interlaboratory variance for isotope ratios determined for the four standards that were calculated using carbonate‐based standardization (ETH‐4, IAEA‐1, IAEA‐2, and MERCK) in Bernasconi et al 21 ranges from 0.05‰ to 0.10‰, and for the four standards that were calculated using gas standardization (ETH‐1 to ETH‐4), the variance ranges from 0.05‰ to 0.09‰. A comparison of our determined values for ISTB‐1 with published values from Chang et al 42 indicates an offset of 0.04‰, which is within the range of variance between laboratories reported by Bernasconi et al 21 …”

“…These include ETH‐1, ETH‐2, ETH‐3, ETH‐4, IAEA‐C1, IAEA‐C2, and MERCK, as described in Bernasconi et al, 17 and NBS‐19, SRM 88B (dolomite), Mallinckrodt Calcium Carbonate, 102‐GC‐AZ01, Carmel Chalk, Carrara Marble, CMTile (another homogenized Carrara Marble), Spel 2‐8‐E, TV01, TV03, and VeinStrom. Carbonate standards obtained from the California Institute of Technology (CIT) and China University of Geosciences (CUG) include Coral Std, ISTB‐1, TB‐1, and TB‐2 42 . These carbonates span a range of δ 47 that is more than 30‰ and ~0.5‰ in Δ 47 .…”

Carbonate clumped isotope analysis (Δ₄₇) of 21 carbonate standards determined via gas‐source isotope‐ratio mass spectrometry on four instrumental configurations using carbonate‐based standardization and multiyear data sets

“…We note that the reported interlaboratory variance for isotope ratios determined for the four standards that were calculated using carbonate‐based standardization (ETH‐4, IAEA‐1, IAEA‐2, and MERCK) in Bernasconi et al 21 ranges from 0.05‰ to 0.10‰, and for the four standards that were calculated using gas standardization (ETH‐1 to ETH‐4), the variance ranges from 0.05‰ to 0.09‰. A comparison of our determined values for ISTB‐1 with published values from Chang et al 42 indicates an offset of 0.04‰, which is within the range of variance between laboratories reported by Bernasconi et al 21 …”

“…These include ETH‐1, ETH‐2, ETH‐3, ETH‐4, IAEA‐C1, IAEA‐C2, and MERCK, as described in Bernasconi et al, 17 and NBS‐19, SRM 88B (dolomite), Mallinckrodt Calcium Carbonate, 102‐GC‐AZ01, Carmel Chalk, Carrara Marble, CMTile (another homogenized Carrara Marble), Spel 2‐8‐E, TV01, TV03, and VeinStrom. Carbonate standards obtained from the California Institute of Technology (CIT) and China University of Geosciences (CUG) include Coral Std, ISTB‐1, TB‐1, and TB‐2 42 . These carbonates span a range of δ 47 that is more than 30‰ and ~0.5‰ in Δ 47 .…”

Carbonate clumped isotope analysis (Δ₄₇) of 21 carbonate standards determined via gas‐source isotope‐ratio mass spectrometry on four instrumental configurations using carbonate‐based standardization and multiyear data sets

“…The methodology in the ITPCAS is similar to that of the University of Chicago, except that the powdered carbonate samples were reacted with 1 to 2 ml of anhydrous phosphoric acid (ρ = ~1.93 g/cm 3 ) at 90°C for 15 min and that the measurement of Δ 47 is conducted on a 235 Plus IRMS. We further construct a standard transfer function to standardize our samples and the effect of acid digestion at 90°C ( 64 ).…”

The rise and demise of the Paleogene Central Tibetan Valley

“…The raw Δ 47 values were corrected for non-linearity and baseline background effects of the mass spectrometer by empirical calibration 50 , and then standardised from a working gas reference frame to an absolute reference frame (ARF), which allows for interlaboratory comparison 51,52 . We further constructed a standard transfer function (STF) 53,54 to standardise our samples and the effects from different acid digestion temperatures 55 .…”

Ice Sheet Expansion in the Cretaceous Greenhouse World