炭素循環研究室

生物地球化学的な循環をしている温室効果ガスなどの物質の観測技術の開発と、地球規模の陸域・海洋および大気における物質循環の動態把握、および気候変動との相互作用の解明を行います。

研究スタッフ

野村 渉平
NOMURA Shohei
高度技能専門員
大気の温室効果ガス観測と測定精度管理
西橋 政秀
NISHIHASHI Masahide
高度技能専門員
インドネシアにおける温室効果ガスと大気汚染物質の観測研究
孫 力飛 (ソン リフィ)
SUN Lifei
特別研究員
土壌有機炭素動態の温暖化応答に関する観測技術開発とデータ解析

研究プロジェクト

研究成果

発表論文

大都市における温室効果ガスと関連物質の大気観測
寺尾有希夫, 石戸谷重之
大気化学研究, 45 (045A01) (2021)
Anthropogenic CO2 emissions changes in an urban area of Tokyo, Japan, due to the COVID-19 pandemic: A case study during the state of emergency in April–May 2020
Sugawara, H., Ishidoya, S., Terao, Y., Takane, Y., Kikegawa, Y., & Nakajima, K.
Geophysical Research Letters, 48, e2021GL092600 (2021)
北海道のバックグラウンド地域における粒子状物質の長期変動
大塚英幸, 秋山雅行, 向井人史, 橋本茂, 笹川基樹
大気環境学会誌, 第56巻第4号, 69-81 (2021)
Soil carbon flux research in the Asian region: Review and future perspectives
Sha, L., Teramoto, M., Noh, N., Hashimoto, S., Yang, M., Sanwangsri M., & Liang, N.
Journal of Agricultural Meteorology, 77(1):24-51 (2021)
Estimation of PM2.5 emission sources in the Tokyo Metropolitan area by simultaneous measurements of particle elements and oxidative ratio in air
Kaneyasu, N., Ishidoya, S., Terao, Y., Mizuno, Y. & Sugawara, H.
ACS Earth and Space Chemistry 4, 297-304 (2020)
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
Ishidoya, S., Sugawara, H., Terao, Y., Kaneyasu, N., Aoki, N., Tsuboi, K. & Kondo, H.
Atmospheric Chemistry and Physics 20, 5293-5308 (2020)
Enhanced understory carbon flux components and robustness of net CO2 exchange after thinning in a larch forest in central Japan
Teramoto, M., Liang, N., Takahashi, Y., Zeng, J., Saigusa, N., Ide, R. & Zhao X.
Agricultural and Forest Meteorology 274, 106-117 (2019)
Methane budget of East Asia, 1990-2015: A bottom-up evaluation
Ito, A., Tohjima, Y., Saito, T., Umezawa, T., Hajima, T., Hirata, R., Saito, M. & Terao, Y.
Science of the Total Environment 676, 40-52 (2019)
Short-term effects of high CO2 accelerate photosynthetic induction in Populus koreana × trichocarpa with always-open stomata regardless of phenotypic changes in high CO2 growth conditions
Tomimatsu, H., Sakata, T., Fukayama, H. & Tang, Y.
Tree Physiology, tpy078 (2018)
Methane and nitrous oxide emissions from conventional and modified rice cultivation systems in South India
Oo, A. Z., Sudo, S., Inubushi, K., Mano, M., Yamamoto, A., Ono, K., Osawa, T., Hayashida, S., Patra, P. K., Terao, Y., Elayakumar, P., Vanitha, K., Umamageswari, C., Jothimani, P. & Ravi, V.
Agriculture, Ecosystems and Environment 252, 148-158 (2018)
Emission factors of CO2, CO and CH4 from Sumatran peatland fires in 2013 based on shipboard measurements
Nara, H., Tanimoto, H., Tohjima, Y., Mukai, H., Nojiri, Y. & Machida, T.
Tellus B 69, 1399047 (2017)
Long-term chamber measurements reveal strong impacts of soil temperature on seasonal and inter-annual variation in understory CO2 fluxes in a Japanese larch (Larix kaempferi Sarg.) forest
Teramoto, M., Liang, N., Zeng, J., Saigusa, N. & Takahashi, Y.
Agricultural and Forest Meteorology 247, 194-206 (2017)
Six years of atmospheric CO2 observations at Mt. Fuji recorded with a battery-powered measurement system
Nomura, S., Mukai, H., Terao, Y., Machida, T. & Nojiri, Y.
Atmos. Meas. Tech. 10, 667-680, (2017)
Exogenous N addition enhances the responses of gross primary productivity to individual precipitation events in a temperate grassland
Guo, Q., Hu, Z. M., Yu, G. R., Sun, X. M., Li, L. H., Liang, N. & Bai, W. M.
Scientific Reports 6:26901 (2016)
Responses of gross primary productivity to different sizes of precipitation events in a temperate grassland ecosystem in Inner Mongolia, China
Guo, Q., Li, S. G., Hu, Z. M., Zhao, W., Yu, G. R., Sun, X. M., Li, L., Liang, N. & Bai, W.
J. Arid Land 8(1): 36-46 (2016)
Sustained acceleration of soil carbon decomposition observed in a 6-year warming experiment in a warm-temperate forest in southern Japan
Teramoto, M., Liang, N., Takagi, M., Zeng, J. & Grace, J.
Sci. Rep. 6, 35563 (2016)
Heterotrophic respiration does not acclimate to continuous warming in a subtropical forest
Wu, C., Liang, N., Sha, L., Xu, X., Zhang, Y., Lu, H., Song, L., Song, Q. & Xie, Y.
Scientific Reports 6:21561 (2016)