Spatiotemporal variations in an assemblage of closely related planktonic aerobic methanotrophs

Abstract

Summary 1. The assemblage of aerobic methane-oxidising bacteria (MOB) was investigated in different seasons in the water column of a stratified freshwater lake. Species composition was analysed by performing denaturing gradient gel electrophoresis (DGGE) of the 16S rRNA genes and cloning analysis of the pmoA gene, which encodes the α-subunit of particulate methane monooxygenase. The relative abundance of MOB to total bacteria was deduced from the copy number of the pmoA gene and 16S rRNA gene using real-time polymerase chain reaction. 2. The profiles of the DGGE banding patterns changed with water depth, and these changes correlated with oxygen concentration and water temperature. The sequences of the DGGE bands obtained were all associated with the genus Methylobacter. During the analysis of pmoA gene, all clones sequenced were that of the Methylobacter/Methylosarcina group. The relative abundances of pmoA gene peaked around the oxycline, and small peaks of pmoA gene were also observed near the surface when peaks of methane were observed at the corresponding depth. 3. Profiles of the DGGE banding patterns suggested that ecophysiological characteristics differ among members of the genus Methylobacter; this indicates the importance of investigating the MOB assemblage at the species level or lower. Planktonic MOB seemed to be abundant around oxycline.