Quinone profiles in lake sediments: Implications for microbial diversity and community structures

Abstract

Microbial quinone compositions of sediment mud samples from five different lakes in Japan were studied by spectrochromatography and mass spectrometry. The total quinone content of these samples ranged from 1.97 to 18.0 nmol/g dry weight of sediment, of which a combined fraction of ubiquinones and menaquinones accounted for 42 to 74%. The remaining fraction (26 to 58%) consisted of the photosynthetic quinones, plastoquinones and phylloquinone. The sediment samples produced PQ-9 or Q-8 as the most abundant quinone type regardless of their geographic locations and depths. These results indicate that oxygenic phototrophic microorganisms and Q-8-containing proteobacteria constituted major parts of microbial populations in the lake sediment. In the surface water of the same sampling sites, plastoquinones and phylloquinone occurred in much higher proportions. These findings suggested that the high abundance of oxygenic phototrophs in the sediment muds resulted from their constant movement or sedimentation from the surface water. Numerical analyses of the quinone profiles showed that the microbial communities of the sediment were diverse and different in different lakes but similar to each other in the diversity of bioenergetic modes. Three physiological groups of microbes showing ubiquinone-mediated aerobic respiration, oxygenic photosynthesis, and menaquinone-associated respiration were suggested to inhabit the lake sediments in balance.