Hiromi Sawamura scite author profile

Methane oxidation at landfill surfaces was characterized using both physiological and genetically -based assessments of bacterial community. Two different types of methane oxidation were observed, depended on one of which involved separate methane-oxidizing reaction that were dependent on the initial methane concentration, and the other one involved normal Michaelis-Menten type kinetics. The MOB community structure was assayed by culture-independent molecular microbiological methods. The gene amplified by pmoA primer, as a measure of the total MOB population, was detected in levels of 104 to 105 MPN-copies•g-1, and accounted for 2.9 % - 49 % of the eubacterial 16S rDNA. In soils exposed to high methane flux, the type II MOB was predominated showing the value of 104 MPN-copies•g-1 of the mmoX gene and amounted to 30-90 % of the corresponding pmoA gene copies detected. In contrast, type I MOB existed in relatively high population at soils under the negative/negligible methane flux

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Hiromi Sawamura

Characterization of microorganisms at different landfill depths using carbon-utilization patterns and 16S rRNA gene based T-RFLP

Microbial Community Analysis in Waste Landfill in Tropical and Subtropical Climate Zones

Evaluation of Landfill Stability by Carbon Utilization Patterns and Phylogenetic Taxonomy of Microorganisms

Community Shift of Methane-oxidizing Bacteria in Cover Soil of Waste Landfills Due to Methane Emission

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