Exploring sub-daily to seasonal variations in methane exchange in a single-crop rice paddy in central Japan

Publication date: April 2018
Source:Atmospheric Environment, Volume 179
Author(s): Hiroki Iwata, Masayoshi Mano, Keisuke Ono, Takeshi Tokida, Takahiro Kawazoe, Yoshiko Kosugi, Ayaka Sakabe, Kenshi Takahashi, Akira Miyata
Season-long methane (CH4) exchange was observed in a rice paddy field in central Japan (Kanto Region) using the eddy covariance technique to clarify the variations in environmental controls on CH4 exchange in different stages of cultivation. Before heading of rice plant, the CH4 emission depended on wind speed and soil temperature. The soil temperature dependence can be due to an increase in CH4 production, higher molecular diffusion, and higher conductance within rice plant at higher soil temperature. An occurrence of ebullitive emission was also suggested from the wind speed dependence. After heading was completed, relative humidity and water temperature influenced CH4 emission. The amplitude of the diurnal variation in emission increased from 0.03μmolm−2s−1 in the late pre-heading stage to 0.13μmolm−2s−1 in the post-heading stage. Induced convective throughflow within the rice aerenchyma after the change in plant structure was attributable to this variation in environmental controls after the heading. After drainage, CH4 emission was confined to short periods after strong rain events. The water level controlled the timing of emission, most likely by influencing the diffusion efficiency from the anoxic soil to the atmosphere and CH4 oxidation in the surface oxic zone. The variation in the dominant transport pathway needs to be accounted for in terrestrial ecosystem models to accurately predict CH4 emission from rice paddies.



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