Add to ORKGDiffusive gas transport at high water contents and physiological water stress at low water contents limited atmospheric methane consumption rates during experimental manipulations of soil water content and water potential. Maximum rates of atmospheric methane consumption occurred at a soil water content of 25% (grams per gram [dry weight]) and a water potential of about - 0.2 MPa. In contrast, uptake rates were highest at a water content of 38% and a water potential of -0.03 MPa when methane was initially present at 200 ppm. Uptake rates of atmospheric and elevated methane decreased when water potentials were reduced by adding either ionic or nonionic solutes to soils with a fixed water content. Uptake rates during these manipulations were ...
The restoration of peatlands is an important strategy to counteract subsidence and loss of biodivers...
Functional and structural aspects of the indigenous methanogenic and methanotrophic microbial popula...
ABSTRACT: Salinity is an important environmental control of aerobic methane oxidation, which reduce...
Uptake rate constants for atmospheric methane consumption by the 4-6 cm depth interval of a forest s...
Methane oxidation in soil cores from a mixed hardwood-coniferous forest varied relatively little as ...
Dissertation (Ph.D.) University of Alaska Fairbanks, 1996Recently, atmospheric CH$\sb4$ concentratio...
Two methanotrophic bacteria, Methylobacter albus BG8 and Methylosinus trichosporium OB3b, oxidized a...
Oxidation by soil bacteria is the only biological sink for atmospheric methane (CH4). There are subs...
International audienceLow affinity methanotrophic bacteria consume a significant quantity of methane...
Rates of methane consumption were measured in subarctic coniferous and temperate mixed-hardwood fore...
Journal ArticlePublished by Copernicus Publications on behalf of the European Geosciences UnionAutho...
Oxidation by soil bacteria is the only biological sink for atmospheric methane (CH4). There are subs...
Methane emission by soils results from antagonistic but correlated microbial activities. Methane is ...
Methane oxidation associated with the belowground tissues of a common aquatic macrophyte, the burwee...
Abstract. Low affinity methanotrophic bacteria consume a significant quantity of methane in wetland ...
The restoration of peatlands is an important strategy to counteract subsidence and loss of biodivers...
Functional and structural aspects of the indigenous methanogenic and methanotrophic microbial popula...
ABSTRACT: Salinity is an important environmental control of aerobic methane oxidation, which reduce...
Uptake rate constants for atmospheric methane consumption by the 4-6 cm depth interval of a forest s...
Methane oxidation in soil cores from a mixed hardwood-coniferous forest varied relatively little as ...
Dissertation (Ph.D.) University of Alaska Fairbanks, 1996Recently, atmospheric CH$\sb4$ concentratio...
Two methanotrophic bacteria, Methylobacter albus BG8 and Methylosinus trichosporium OB3b, oxidized a...
Oxidation by soil bacteria is the only biological sink for atmospheric methane (CH4). There are subs...
International audienceLow affinity methanotrophic bacteria consume a significant quantity of methane...
Rates of methane consumption were measured in subarctic coniferous and temperate mixed-hardwood fore...
Journal ArticlePublished by Copernicus Publications on behalf of the European Geosciences UnionAutho...
Oxidation by soil bacteria is the only biological sink for atmospheric methane (CH4). There are subs...
Methane emission by soils results from antagonistic but correlated microbial activities. Methane is ...
Methane oxidation associated with the belowground tissues of a common aquatic macrophyte, the burwee...
Abstract. Low affinity methanotrophic bacteria consume a significant quantity of methane in wetland ...
The restoration of peatlands is an important strategy to counteract subsidence and loss of biodivers...
Functional and structural aspects of the indigenous methanogenic and methanotrophic microbial popula...
ABSTRACT: Salinity is an important environmental control of aerobic methane oxidation, which reduce...