Preparation of primary standard mixtures for atmospheric oxygen measurements with less than 1 µmol mol−1 uncertainty for oxygen molar fractions

Aoki, Nobuyuki; Ishidoya, Shigeyuki; Matsumoto, Nobuhiro; Watanabe, Takuro; Shimosaka, Takuya; Murayama, Shohei

doi:10.5194/amt-12-2631-2019

Cited by 18 publications

(20 citation statements)

References 58 publications

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“…The N 2 O-AOU for M99 was 0.088 ± 0.003 nmol µmol −1 , with an intercept of 1.6 ± 0.04 nmol and an R 2 of 0.69. This is a low value, nearly identical to results from the eastern basin of the subtropical North Atlantic, where South Atlantic Central Water is found (Cohen and Gordon, 1979;Suntharalingam and Sarmiento, 2000;Walter et al, 2006), and the eastern equatorial Atlantic (Arévalo-Martínez et al, 2017). Frame et al (2014) showed that most of the N 2 O in the Benguela Current region is produced in the water column and in the sediment by nitrifier denitrification (Frame et al, 2014).…”

Section: Stoichiometrysupporting

confidence: 81%

“…In the case of O 2 , the atmospheric concentration was measured only sporadically with flask samples, so it was taken as a static value, viz. the mole fraction of O 2 in standard dry air, 0.2093 (Aoki et al, 2019). The in situ aqueous solubility of O 2 was calculated using the equations of García and Gordon (1992), of N 2 O using those in Weiss and Price (1980), and of CO 2 using Weiss (1974).…”

Section: Shipboard Air-sea Flux Density Estimatesmentioning

confidence: 99%

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Air–sea fluxes of greenhouse gases and oxygen in the northern Benguela Current region during upwelling events

et al. 2019

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Abstract. Ground-based atmospheric observations of CO2, δ(O2∕N2), N2O, and CH4 were used to make estimates of the air–sea fluxes of these species from the Lüderitz and Walvis Bay upwelling cells in the northern Benguela region, during upwelling events. Average flux densities (±1σ) were 0.65±0.4 µmol m−2 s−1 for CO2, -5.1±2.5 µmol m−2 s−1 for O2 (as APO), 0.61±0.5 nmol m−2 s−1 for N2O, and 4.8±6.3 nmol m−2 s−1 for CH4. A comparison of our top-down (i.e., inferred from atmospheric anomalies) flux estimates with shipboard-based measurements showed that the two approaches agreed within ±55 % on average, though the degree of agreement varied by species and was best for CO2. Since the top-down method overestimated the flux density relative to the shipboard-based approach for all species, we also present flux density estimates that have been tuned to best match the shipboard fluxes. During the study, upwelling events were sources of CO2, N2O, and CH4 to the atmosphere. N2O fluxes were fairly low, in accordance with previous work suggesting that the evasion of this gas from the Benguela is smaller than for other eastern boundary upwelling systems (EBUS). Conversely, CH4 release was quite high for the marine environment, a result that supports studies that indicated a large sedimentary source of CH4 in the Walvis Bay area. These results demonstrate the suitability of atmospheric time series for characterizing the temporal variability of upwelling events and their influence on the overall marine greenhouse gas (GHG) emissions from the northern Benguela region.

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Section: Stoichiometrysupporting

confidence: 81%

Section: Shipboard Air-sea Flux Density Estimatesmentioning

confidence: 99%

Air–sea fluxes of greenhouse gases and oxygen in the northern Benguela Current region during upwelling events

et al. 2019

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“…Although the highest CO 2 concentration of the gravimetrically prepared standard of the NIES-09 scale is similar to that of the TU-10 scale, a slope of 0.974 ppm ppm −1 is derived from a least-squares regression line fitted to the relationship between the CO 2 concentrations observed by NDIR on the TU-10 scale and those by CRDS on the NIES-09 scale with a correlation coefficient (r) of 0.978. On the other hand, we obtained a slope of 1.002 per meg per S. Ishidoya et al: O 2 : CO 2 exchange ratio for net turbulent flux meg −1 (r = 0.999) from the regression line fitted to the relationship between the O 2 concentrations of gravimetrically prepared standard gases (Aoki et al, 2019) measured by the mass spectrometer on the AIST scale and the gravimetric values of the standard gases covering a much wider range than the atmospheric variations in the O 2 concentration. Therefore, the uncertainty in OR due to the span uncertainties of O 2 and CO 2 concentrations is expected to be within 3 %.…”

Section: Continuous Measurements Of the Atmospheric Omentioning

confidence: 72%

O₂ : CO₂ exchange ratio for net turbulent flux observed in an urban area of Tokyo, Japan, and its application to an evaluation of anthropogenic CO₂ emissions

et al. 2020

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Abstract. In order to examine O2 consumption and CO2 emission in a megacity, continuous observations of atmospheric O2 and CO2 concentrations, along with CO2 flux, have been carried out simultaneously since March 2016 at the Yoyogi (YYG) site located in the middle of Tokyo, Japan. An average O2 : CO2 exchange ratio for net turbulent O2 and CO2 fluxes (ORF) between the urban area and the overlaying atmosphere was obtained based on an aerodynamic method using the observed O2 and CO2 concentrations. The yearly mean ORF was found to be 1.62, falling within the range of the average OR values of liquid and gas fuels, and the annual average daily mean O2 flux at YYG was estimated to be −16.3 µmol m−2 s−1 based on the ORF and CO2 flux. By using the observed ORF and CO2 flux, along with the inventory-based CO2 emission from human respiration, we estimated the average diurnal cycles of CO2 fluxes from gas and liquid fuel consumption separately for each season. Both the estimated and inventory-based CO2 fluxes from gas fuel consumption showed average diurnal cycles with two peaks, one in the morning and another one in the evening; however, the evening peak of the inventory-based gas consumption was much larger than that estimated from the CO2 flux. This can explain the discrepancy between the observed and inventory-based total CO2 fluxes at YYG. Therefore, simultaneous observations of ORF and CO2 flux are useful in validating CO2 emission inventories from statistical data.

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“…The CH 4 , N 2 O and CO 2 concentrations are determined against Tohoku University (TU) scales, which are based on gravimetrically prepared primary standard gases (Aoki et al, 1992;Tanaka et al, 1983). Uncertainties of the TU primary standards are < ± 0.2, 0.2 and 0.03 % for CH 4 , N 2 O and CO 2 concentrations, respectively (Aoki et al, 1992 . Example of a calibration procedure for greenhouse gas concentration.…”

Section: Standard Gasesmentioning

confidence: 99%

New technique for high-precision, simultaneous measurements of CH4, N2O and CO2 concentrations; isotopic and elemental ratios of N2, O2 and Ar; and total air content in ice cores by wet extraction

et al. 2020

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Abstract. Air in polar ice cores provides unique information on past climatic and atmospheric changes. We developed a new method combining wet extraction, gas chromatography and mass spectrometry for high-precision, simultaneous measurements of eight air components (CH4, N2O and CO2 concentrations; δ15N, δ18O, δO2∕N2 and δAr∕N2; and total air content) from an ice-core sample of ∼ 60 g. The ice sample is evacuated for ∼ 2 h and melted under vacuum, and the released air is continuously transferred into a sample tube at 10 K within 10 min. The air is homogenized in the sample tube overnight at room temperature and split into two aliquots for mass spectrometric and gas chromatographic measurements. Care is taken to minimize (1) contamination of greenhouse gases by using a long evacuation time, (2) consumption of oxygen during sample storage by a passivation treatment on sample tubes, and (3) fractionation of isotopic ratios with a long homogenization time for splitting. Precision is assessed by analyzing standard gases with artificial ice and duplicate measurements of the Dome Fuji and NEEM ice cores. The overall reproducibility (1 SD) of duplicate ice-core analyses are 3.2 ppb, 2.2 ppb and 2.9 ppm for CH4, N2O and CO2 concentrations; 0.006 ‰, 0.011 ‰, 0.09 ‰ and 0.12 ‰ for δ15N, δ18O, δO2∕N2 and δAr∕N2; and 0.63 mLSTP kg−1 for total air content, respectively. Our new method successfully combines the high-precision, small-sample and multiple-species measurements, with a wide range of applications for ice-core paleoenvironmental studies.

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Preparation of primary standard mixtures for atmospheric oxygen measurements with less than 1 µmol mol⁻¹ uncertainty for oxygen molar fractions

Cited by 18 publications

References 58 publications

Air–sea fluxes of greenhouse gases and oxygen in the northern Benguela Current region during upwelling events

Air–sea fluxes of greenhouse gases and oxygen in the northern Benguela Current region during upwelling events

O₂ : CO₂ exchange ratio for net turbulent flux observed in an urban area of Tokyo, Japan, and its application to an evaluation of anthropogenic CO₂ emissions

New technique for high-precision, simultaneous measurements of CH<sub>4</sub>, N<sub>2</sub>O and CO<sub>2</sub> concentrations; isotopic and elemental ratios of N<sub>2</sub>, O<sub>2</sub> and Ar; and total air content in ice cores by wet extraction

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Preparation of primary standard mixtures for atmospheric oxygen measurements with less than 1 µmol mol−1 uncertainty for oxygen molar fractions

Cited by 18 publications

References 58 publications

Air–sea fluxes of greenhouse gases and oxygen in the northern Benguela Current region during upwelling events

Air–sea fluxes of greenhouse gases and oxygen in the northern Benguela Current region during upwelling events

O2 : CO2 exchange ratio for net turbulent flux observed in an urban area of Tokyo, Japan, and its application to an evaluation of anthropogenic CO2 emissions

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Preparation of primary standard mixtures for atmospheric oxygen measurements with less than 1 µmol mol⁻¹ uncertainty for oxygen molar fractions

O₂ : CO₂ exchange ratio for net turbulent flux observed in an urban area of Tokyo, Japan, and its application to an evaluation of anthropogenic CO₂ emissions