Water regime is one of the most important factors that affect production, oxidation, and emission of CH4, but few research reports are available in the literature about effects of water regime on values and seasonal variation of CH4 production potential and CH4 oxidation potential in rice paddy soil.

Water regime is one of the most important factors that affect production, oxidation, and emission of CH4, but few research reports are available in the literature about effects of water regime on values and seasonal variation of CH4 production potential and CH4 oxidation potential in rice paddy soil.

The research progresses in the effects of soil temperature on atmospheric CH 4 oxidation in soils were reviewed in this paper.

Samples of lessive,one of the most important soil types in the Sanjiang Plain(45°01′-48°28′N,130°13′-135°05′E,the largest fresh water wetland area in China),were incubated to investigate the effect of land-use change on methane oxidation in lessive.

Laboratory study on methane oxidation of forest soil revealed the vertical profiles of methane oxidation activity.

Methane oxidation in soil profiles of broad-leaved Korean pine mixed forest in Changbai Mountain;