日本地球惑星科学連合2019年大会

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[J] ポスター発表

セッション記号 A (大気水圏科学) » A-AS 大気科学・気象学・大気環境

[A-AS04] 大気化学

2019年5月30日(木) 13:45 〜 15:15 ポスター会場 (幕張メッセ国際展示場 8ホール)

コンビーナ:中山 智喜(長崎大学 大学院水産・環境科学総合研究科)、岩本 洋子(広島大学 生物圏科学研究科)、豊田 栄(東京工業大学物質理工学院)、江口 菜穂(Kyushu University)

[AAS04-P30] 南鳥島における大気中CO2濃度および炭素・酸素安定同位体比の連続観測

*村山 昌平1坪井 一寛2石戸谷 重之1松枝 秀和2丹羽 洋介3澤 庸介2石島 健太郎2古積 健太郎4梅澤 研太4雪田 一弥4西田 重晴4山本 めぐみ4宇佐美 哲之1森本 真司5 (1.国立研究開発法人産業技術総合研究所、2.気象研究所、3.国立研究開発法人国立環境研究所、4.気象庁、5.東北大学)

キーワード:二酸化炭素、安定同位体比、南鳥島、連続観測

The Minamitorishima (MNM; 24°17’N, 153°59’E) station is uniquely located to monitor background air at northern mid latitudes; the site is located on a remote coral island in the western North Pacific, about 1,950 km southeast of Tokyo. The Japan Meteorological Agency has been making long-term continuous observations of atmospheric concentrations of major greenhouse gases at MNM. For a better understanding of mechanisms governing the observed CO2 variation, systematic measurements of atmospheric CO2 and its δ13C and δ18O have been carried out at MNM by analyzing discrete flask air samples taken at the site since 2011. The existing measurement program was enhanced by initiating continuous measurements of CO2 and its δ13C and δ18O using a laser spectroscopy (Off-Axis Integrated-Cavity Output Spectroscopy) in March 2018.

Sample air is drawn from an air intake mounted on a tower at 20-m height above the ground surface, and introduced into a continuous isotope analyzer (Model CCIA-48, Los Gatos Research) after removing water vapor and aerosol particles. The analyzer is calibrated hourly for the concentrations of each CO2 isotopologue, using 3 air-based CO2 standard gases with isotopic ratios of industrial CO2 and different total CO2 concentrations. The isotopic ratios of these standards were determined by a mass spectrometer, and the concentrations of each CO2 isotopologue of the standards were obtained from the isotopic ratios. The total CO2 concentration and its δ13C and δ18O of sample air are calculated from the measured concentrations of each isotopologue.

The obtained CO2 isotopic data are scattered, and the precisions of the δ13C and δ18O values measured by this analyzer estimated from hourly measurements of a target gas, which is dried natural air compressed into a 48-L gas cylinder, are about 10 times and 5 times worse than those achieved by our mass spectrometer, respectively. However, the daily mean values of atmospheric δ13C and δ18O show day-to-day variations in concert with those of the total CO2 concentration and prominent seasonal variations. The daily mean δ13C and δ18O show systematic difference from the isotopic values obtained from flask sampling on the same day. However, since the differences are almost constant, the nature of the variations are very similar in both cases.

In this presentation, results of the preliminary analyses of the daily mean CO2, δ13C and δ18O data obtained from the continuous measurement will be presented. From comparison with the flask sampling results, the effectiveness of the continuous measurement will also be discussed.



Acknowledgements

We would like to thank A. Kudo and C. Abe for their technical support for our measurements. This research was supported by a grant for the Global Environmental Research Coordination System from the Ministry of the Environment, Japan.