The processes of methane production and oxidation in the soils of the Russian Arctic tundra

• Published in: Microbiology (New York) Vol. 74; no. 2; pp. 221 - 229
• Main Authors: Berestovskaya, Yu. Yu, Rusanov, I. I., Vasil’eva, L. V., Pimenov, N. V.
• Format: Journal Article
• Language: English
• Published: 01.03.2005
• ISSN: 0026-2617; 1608-3237
• DOI: 10.1007/s11021-005-0055-2

Methane emission from the following types of tundra soils was studied: coarse humic gleyey loamy cryo soil, peaty gleyey soil, and peaty gleyey midloamy cryo soil of the arctic tundra. All the soils studied were found to be potential sources of atmospheric methane. The highest values of methane emission were recorded in August at a soil temperature of 8-10 degree C. Flooded parcels were the sources of atmospheric methane throughout the observation period. The rates of methane production and oxidation in tundra soils of various types were studied by the radioisotope method at 5 and 15 degree C. Methane oxidation was found to occur in bog water, in the green part of peat moss, and in all the soil horizons studied. Methane production was recorded in the horizons of peat, in clay with plant roots, and in peaty moss dust of the bogey parcels. At both temperatures, the methane oxidation rate exceeded the rate of methane production in all the horizons of the mossy-lichen tundra and of the hillock tundra with flat-bottom depressions. Methanogenesis prevailed only in a sedge-peat moss bog at 15 degree C. Bacterial enrichment cultures oxidizing methane at 5 and 15 degree C were obtained. Different types of methanotrophic bacteria were shown to be responsible for methane oxidation under these conditions. A representative of type I methylotrophs oxidized methane at 5 degree C, and Methylocella tundrae, a psychroactive representative of an acidophilic methanotrophic genus Methylocella, at 15 degree C.