2005
DOI: 10.1029/2005jd005769
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The 18O isotope exchange rate between firn air CO2 and the firn matrix at three Antarctic sites

Abstract: [1] Having measured d 18 O of firn air CO 2 for three Antarctic sites (Dronning Maud Land, Dome Concordia, and Berkner Island), we established that at depth the d 18 O(CO 2 ) values are systematically shifted away from atmospheric values toward isotope equilibrium with H 2 O from precipitation (firn matrix). The d 18 O(CO 2 ) shifts increase with depth and thus with CO 2 age. The equation of a first-order reaction is used to describe and calculate CO 2 oxygen isotope exchange rates. The calculated exchange rat… Show more

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Cited by 23 publications
(31 citation statements)
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“…Observations of ice core δ 18 O-CO 2 have previously been reported and discussed from low-resolution measurements from ice cores at Siple Dome, South Pole, and Byrd hereafter Siegenthaler) and high-precision measurements from firn sampling campaigns at Dome C, Dronning Maud Land, and Berkner Island (Assonov et al, 2005); hereafter ABJ). Siegenthaler observed δ 18 O-CO 2 values about 20 to 30 ‰ more depleted than typical atmospheric values and correlated to the variations of δ 18 O in the surrounding ice matrix.…”
Section: Oxygen Isotopic Fractionationmentioning
confidence: 99%
“…Observations of ice core δ 18 O-CO 2 have previously been reported and discussed from low-resolution measurements from ice cores at Siple Dome, South Pole, and Byrd hereafter Siegenthaler) and high-precision measurements from firn sampling campaigns at Dome C, Dronning Maud Land, and Berkner Island (Assonov et al, 2005); hereafter ABJ). Siegenthaler observed δ 18 O-CO 2 values about 20 to 30 ‰ more depleted than typical atmospheric values and correlated to the variations of δ 18 O in the surrounding ice matrix.…”
Section: Oxygen Isotopic Fractionationmentioning
confidence: 99%
“…[124] The range of ı 46 CO 2 of air in ice cores and firn is due to modification with depth from O-exchange with H 2 O [Assonov et al, 2005], which makes the ı 46 CO 2 of air in ice significantly more negative than that of atmospheric air (depending on the age/depth of a sample). For our measurements of modern atmospheric air, firn air, and ice core air against the pure CO 2 reference gas, ı 45 CO 2 varies between -2 (modern air) and 0 (ice) while ı 46 CO 2 varies from +14 (modern air) to -14 (ice).…”
Section: A4 Cross Contaminationmentioning
confidence: 99%
“…With the exception of the anomalous samples at 15.95, 30.33, and 32.85 m, discussed above, the observed depletion trend with depth can be attributed to exchange with the ice matrix (À27.0 ± 1.7% VSMOW). This progressive exchange has been observed by Assonov et al [2005] in firn air from three Antarctic sites, and shown to be a first-order reaction.…”
mentioning
confidence: 94%
“…14 CO 2 has diffusive properties that differ only marginally from those of CO 2 owing to its greater mass, and otherwise behaves the same as CO 2 in firn air. However, thermonuclear bomb tests from 1952 to [Assonov et al, 2005]. For Devon, error bars are for l CO 2 -H 2 O = 0.03276 (+0.0062/À0.0078) on the basis of the uncertainty of the depth of the 1963 thermonuclear peak used to calibrate the exchange rate.…”
Section: Co 2 [22] Atmosphericmentioning
confidence: 99%
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